لا ينبغي أن لا يتم تثبيت هذا السكريت مباشرة. هو مكتبة لسكبتات لتشمل مع التوجيه الفوقية // @require https://update.greasyfork.org/scripts/515866/1477949/Tipyy-521.js
/**!
* @fileOverview Kickass library to create and place poppers near their reference elements.
* @version 1.16.1
* @license
* Copyright (c) 2016 Federico Zivolo and contributors
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
typeof define === 'function' && define.amd ? define(factory) :
(global.Popper = factory());
}(this, (function () { 'use strict';
var isBrowser = typeof window !== 'undefined' && typeof document !== 'undefined' && typeof navigator !== 'undefined';
var timeoutDuration = function () {
var longerTimeoutBrowsers = ['Edge', 'Trident', 'Firefox'];
for (var i = 0; i < longerTimeoutBrowsers.length; i += 1) {
if (isBrowser && navigator.userAgent.indexOf(longerTimeoutBrowsers[i]) >= 0) {
return 1;
}
}
return 0;
}();
function microtaskDebounce(fn) {
var called = false;
return function () {
if (called) {
return;
}
called = true;
window.Promise.resolve().then(function () {
called = false;
fn();
});
};
}
function taskDebounce(fn) {
var scheduled = false;
return function () {
if (!scheduled) {
scheduled = true;
setTimeout(function () {
scheduled = false;
fn();
}, timeoutDuration);
}
};
}
var supportsMicroTasks = isBrowser && window.Promise;
/**
* Create a debounced version of a method, that's asynchronously deferred
* but called in the minimum time possible.
*
* @method
* @memberof Popper.Utils
* @argument {Function} fn
* @returns {Function}
*/
var debounce = supportsMicroTasks ? microtaskDebounce : taskDebounce;
/**
* Check if the given variable is a function
* @method
* @memberof Popper.Utils
* @argument {Any} functionToCheck - variable to check
* @returns {Boolean} answer to: is a function?
*/
function isFunction(functionToCheck) {
var getType = {};
return functionToCheck && getType.toString.call(functionToCheck) === '[object Function]';
}
/**
* Get CSS computed property of the given element
* @method
* @memberof Popper.Utils
* @argument {Eement} element
* @argument {String} property
*/
function getStyleComputedProperty(element, property) {
if (element.nodeType !== 1) {
return [];
}
// NOTE: 1 DOM access here
var window = element.ownerDocument.defaultView;
var css = window.getComputedStyle(element, null);
return property ? css[property] : css;
}
/**
* Returns the parentNode or the host of the element
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @returns {Element} parent
*/
function getParentNode(element) {
if (element.nodeName === 'HTML') {
return element;
}
return element.parentNode || element.host;
}
/**
* Returns the scrolling parent of the given element
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @returns {Element} scroll parent
*/
function getScrollParent(element) {
// Return body, `getScroll` will take care to get the correct `scrollTop` from it
if (!element) {
return document.body;
}
switch (element.nodeName) {
case 'HTML':
case 'BODY':
return element.ownerDocument.body;
case '#document':
return element.body;
}
// Firefox want us to check `-x` and `-y` variations as well
var _getStyleComputedProp = getStyleComputedProperty(element),
overflow = _getStyleComputedProp.overflow,
overflowX = _getStyleComputedProp.overflowX,
overflowY = _getStyleComputedProp.overflowY;
if (/(auto|scroll|overlay)/.test(overflow + overflowY + overflowX)) {
return element;
}
return getScrollParent(getParentNode(element));
}
/**
* Returns the reference node of the reference object, or the reference object itself.
* @method
* @memberof Popper.Utils
* @param {Element|Object} reference - the reference element (the popper will be relative to this)
* @returns {Element} parent
*/
function getReferenceNode(reference) {
return reference && reference.referenceNode ? reference.referenceNode : reference;
}
var isIE11 = isBrowser && !!(window.MSInputMethodContext && document.documentMode);
var isIE10 = isBrowser && /MSIE 10/.test(navigator.userAgent);
/**
* Determines if the browser is Internet Explorer
* @method
* @memberof Popper.Utils
* @param {Number} version to check
* @returns {Boolean} isIE
*/
function isIE(version) {
if (version === 11) {
return isIE11;
}
if (version === 10) {
return isIE10;
}
return isIE11 || isIE10;
}
/**
* Returns the offset parent of the given element
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @returns {Element} offset parent
*/
function getOffsetParent(element) {
if (!element) {
return document.documentElement;
}
var noOffsetParent = isIE(10) ? document.body : null;
// NOTE: 1 DOM access here
var offsetParent = element.offsetParent || null;
// Skip hidden elements which don't have an offsetParent
while (offsetParent === noOffsetParent && element.nextElementSibling) {
offsetParent = (element = element.nextElementSibling).offsetParent;
}
var nodeName = offsetParent && offsetParent.nodeName;
if (!nodeName || nodeName === 'BODY' || nodeName === 'HTML') {
return element ? element.ownerDocument.documentElement : document.documentElement;
}
// .offsetParent will return the closest TH, TD or TABLE in case
// no offsetParent is present, I hate this job...
if (['TH', 'TD', 'TABLE'].indexOf(offsetParent.nodeName) !== -1 && getStyleComputedProperty(offsetParent, 'position') === 'static') {
return getOffsetParent(offsetParent);
}
return offsetParent;
}
function isOffsetContainer(element) {
var nodeName = element.nodeName;
if (nodeName === 'BODY') {
return false;
}
return nodeName === 'HTML' || getOffsetParent(element.firstElementChild) === element;
}
/**
* Finds the root node (document, shadowDOM root) of the given element
* @method
* @memberof Popper.Utils
* @argument {Element} node
* @returns {Element} root node
*/
function getRoot(node) {
if (node.parentNode !== null) {
return getRoot(node.parentNode);
}
return node;
}
/**
* Finds the offset parent common to the two provided nodes
* @method
* @memberof Popper.Utils
* @argument {Element} element1
* @argument {Element} element2
* @returns {Element} common offset parent
*/
function findCommonOffsetParent(element1, element2) {
// This check is needed to avoid errors in case one of the elements isn't defined for any reason
if (!element1 || !element1.nodeType || !element2 || !element2.nodeType) {
return document.documentElement;
}
// Here we make sure to give as "start" the element that comes first in the DOM
var order = element1.compareDocumentPosition(element2) & Node.DOCUMENT_POSITION_FOLLOWING;
var start = order ? element1 : element2;
var end = order ? element2 : element1;
// Get common ancestor container
var range = document.createRange();
range.setStart(start, 0);
range.setEnd(end, 0);
var commonAncestorContainer = range.commonAncestorContainer;
// Both nodes are inside #document
if (element1 !== commonAncestorContainer && element2 !== commonAncestorContainer || start.contains(end)) {
if (isOffsetContainer(commonAncestorContainer)) {
return commonAncestorContainer;
}
return getOffsetParent(commonAncestorContainer);
}
// one of the nodes is inside shadowDOM, find which one
var element1root = getRoot(element1);
if (element1root.host) {
return findCommonOffsetParent(element1root.host, element2);
} else {
return findCommonOffsetParent(element1, getRoot(element2).host);
}
}
/**
* Gets the scroll value of the given element in the given side (top and left)
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @argument {String} side `top` or `left`
* @returns {number} amount of scrolled pixels
*/
function getScroll(element) {
var side = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'top';
var upperSide = side === 'top' ? 'scrollTop' : 'scrollLeft';
var nodeName = element.nodeName;
if (nodeName === 'BODY' || nodeName === 'HTML') {
var html = element.ownerDocument.documentElement;
var scrollingElement = element.ownerDocument.scrollingElement || html;
return scrollingElement[upperSide];
}
return element[upperSide];
}
/*
* Sum or subtract the element scroll values (left and top) from a given rect object
* @method
* @memberof Popper.Utils
* @param {Object} rect - Rect object you want to change
* @param {HTMLElement} element - The element from the function reads the scroll values
* @param {Boolean} subtract - set to true if you want to subtract the scroll values
* @return {Object} rect - The modifier rect object
*/
function includeScroll(rect, element) {
var subtract = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : false;
var scrollTop = getScroll(element, 'top');
var scrollLeft = getScroll(element, 'left');
var modifier = subtract ? -1 : 1;
rect.top += scrollTop * modifier;
rect.bottom += scrollTop * modifier;
rect.left += scrollLeft * modifier;
rect.right += scrollLeft * modifier;
return rect;
}
/*
* Helper to detect borders of a given element
* @method
* @memberof Popper.Utils
* @param {CSSStyleDeclaration} styles
* Result of `getStyleComputedProperty` on the given element
* @param {String} axis - `x` or `y`
* @return {number} borders - The borders size of the given axis
*/
function getBordersSize(styles, axis) {
var sideA = axis === 'x' ? 'Left' : 'Top';
var sideB = sideA === 'Left' ? 'Right' : 'Bottom';
return parseFloat(styles['border' + sideA + 'Width']) + parseFloat(styles['border' + sideB + 'Width']);
}
function getSize(axis, body, html, computedStyle) {
return Math.max(body['offset' + axis], body['scroll' + axis], html['client' + axis], html['offset' + axis], html['scroll' + axis], isIE(10) ? parseInt(html['offset' + axis]) + parseInt(computedStyle['margin' + (axis === 'Height' ? 'Top' : 'Left')]) + parseInt(computedStyle['margin' + (axis === 'Height' ? 'Bottom' : 'Right')]) : 0);
}
function getWindowSizes(document) {
var body = document.body;
var html = document.documentElement;
var computedStyle = isIE(10) && getComputedStyle(html);
return {
height: getSize('Height', body, html, computedStyle),
width: getSize('Width', body, html, computedStyle)
};
}
var classCallCheck = function (instance, Constructor) {
if (!(instance instanceof Constructor)) {
throw new TypeError("Cannot call a class as a function");
}
};
var createClass = function () {
function defineProperties(target, props) {
for (var i = 0; i < props.length; i++) {
var descriptor = props[i];
descriptor.enumerable = descriptor.enumerable || false;
descriptor.configurable = true;
if ("value" in descriptor) descriptor.writable = true;
Object.defineProperty(target, descriptor.key, descriptor);
}
}
return function (Constructor, protoProps, staticProps) {
if (protoProps) defineProperties(Constructor.prototype, protoProps);
if (staticProps) defineProperties(Constructor, staticProps);
return Constructor;
};
}();
var defineProperty = function (obj, key, value) {
if (key in obj) {
Object.defineProperty(obj, key, {
value: value,
enumerable: true,
configurable: true,
writable: true
});
} else {
obj[key] = value;
}
return obj;
};
var _extends = Object.assign || function (target) {
for (var i = 1; i < arguments.length; i++) {
var source = arguments[i];
for (var key in source) {
if (Object.prototype.hasOwnProperty.call(source, key)) {
target[key] = source[key];
}
}
}
return target;
};
/**
* Given element offsets, generate an output similar to getBoundingClientRect
* @method
* @memberof Popper.Utils
* @argument {Object} offsets
* @returns {Object} ClientRect like output
*/
function getClientRect(offsets) {
return _extends({}, offsets, {
right: offsets.left + offsets.width,
bottom: offsets.top + offsets.height
});
}
/**
* Get bounding client rect of given element
* @method
* @memberof Popper.Utils
* @param {HTMLElement} element
* @return {Object} client rect
*/
function getBoundingClientRect(element) {
var rect = {};
// IE10 10 FIX: Please, don't ask, the element isn't
// considered in DOM in some circumstances...
// This isn't reproducible in IE10 compatibility mode of IE11
try {
if (isIE(10)) {
rect = element.getBoundingClientRect();
var scrollTop = getScroll(element, 'top');
var scrollLeft = getScroll(element, 'left');
rect.top += scrollTop;
rect.left += scrollLeft;
rect.bottom += scrollTop;
rect.right += scrollLeft;
} else {
rect = element.getBoundingClientRect();
}
} catch (e) {}
var result = {
left: rect.left,
top: rect.top,
width: rect.right - rect.left,
height: rect.bottom - rect.top
};
// subtract scrollbar size from sizes
var sizes = element.nodeName === 'HTML' ? getWindowSizes(element.ownerDocument) : {};
var width = sizes.width || element.clientWidth || result.width;
var height = sizes.height || element.clientHeight || result.height;
var horizScrollbar = element.offsetWidth - width;
var vertScrollbar = element.offsetHeight - height;
// if an hypothetical scrollbar is detected, we must be sure it's not a `border`
// we make this check conditional for performance reasons
if (horizScrollbar || vertScrollbar) {
var styles = getStyleComputedProperty(element);
horizScrollbar -= getBordersSize(styles, 'x');
vertScrollbar -= getBordersSize(styles, 'y');
result.width -= horizScrollbar;
result.height -= vertScrollbar;
}
return getClientRect(result);
}
function getOffsetRectRelativeToArbitraryNode(children, parent) {
var fixedPosition = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : false;
var isIE10 = isIE(10);
var isHTML = parent.nodeName === 'HTML';
var childrenRect = getBoundingClientRect(children);
var parentRect = getBoundingClientRect(parent);
var scrollParent = getScrollParent(children);
var styles = getStyleComputedProperty(parent);
var borderTopWidth = parseFloat(styles.borderTopWidth);
var borderLeftWidth = parseFloat(styles.borderLeftWidth);
// In cases where the parent is fixed, we must ignore negative scroll in offset calc
if (fixedPosition && isHTML) {
parentRect.top = Math.max(parentRect.top, 0);
parentRect.left = Math.max(parentRect.left, 0);
}
var offsets = getClientRect({
top: childrenRect.top - parentRect.top - borderTopWidth,
left: childrenRect.left - parentRect.left - borderLeftWidth,
width: childrenRect.width,
height: childrenRect.height
});
offsets.marginTop = 0;
offsets.marginLeft = 0;
// Subtract margins of documentElement in case it's being used as parent
// we do this only on HTML because it's the only element that behaves
// differently when margins are applied to it. The margins are included in
// the box of the documentElement, in the other cases not.
if (!isIE10 && isHTML) {
var marginTop = parseFloat(styles.marginTop);
var marginLeft = parseFloat(styles.marginLeft);
offsets.top -= borderTopWidth - marginTop;
offsets.bottom -= borderTopWidth - marginTop;
offsets.left -= borderLeftWidth - marginLeft;
offsets.right -= borderLeftWidth - marginLeft;
// Attach marginTop and marginLeft because in some circumstances we may need them
offsets.marginTop = marginTop;
offsets.marginLeft = marginLeft;
}
if (isIE10 && !fixedPosition ? parent.contains(scrollParent) : parent === scrollParent && scrollParent.nodeName !== 'BODY') {
offsets = includeScroll(offsets, parent);
}
return offsets;
}
function getViewportOffsetRectRelativeToArtbitraryNode(element) {
var excludeScroll = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false;
var html = element.ownerDocument.documentElement;
var relativeOffset = getOffsetRectRelativeToArbitraryNode(element, html);
var width = Math.max(html.clientWidth, window.innerWidth || 0);
var height = Math.max(html.clientHeight, window.innerHeight || 0);
var scrollTop = !excludeScroll ? getScroll(html) : 0;
var scrollLeft = !excludeScroll ? getScroll(html, 'left') : 0;
var offset = {
top: scrollTop - relativeOffset.top + relativeOffset.marginTop,
left: scrollLeft - relativeOffset.left + relativeOffset.marginLeft,
width: width,
height: height
};
return getClientRect(offset);
}
/**
* Check if the given element is fixed or is inside a fixed parent
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @argument {Element} customContainer
* @returns {Boolean} answer to "isFixed?"
*/
function isFixed(element) {
var nodeName = element.nodeName;
if (nodeName === 'BODY' || nodeName === 'HTML') {
return false;
}
if (getStyleComputedProperty(element, 'position') === 'fixed') {
return true;
}
var parentNode = getParentNode(element);
if (!parentNode) {
return false;
}
return isFixed(parentNode);
}
/**
* Finds the first parent of an element that has a transformed property defined
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @returns {Element} first transformed parent or documentElement
*/
function getFixedPositionOffsetParent(element) {
// This check is needed to avoid errors in case one of the elements isn't defined for any reason
if (!element || !element.parentElement || isIE()) {
return document.documentElement;
}
var el = element.parentElement;
while (el && getStyleComputedProperty(el, 'transform') === 'none') {
el = el.parentElement;
}
return el || document.documentElement;
}
/**
* Computed the boundaries limits and return them
* @method
* @memberof Popper.Utils
* @param {HTMLElement} popper
* @param {HTMLElement} reference
* @param {number} padding
* @param {HTMLElement} boundariesElement - Element used to define the boundaries
* @param {Boolean} fixedPosition - Is in fixed position mode
* @returns {Object} Coordinates of the boundaries
*/
function getBoundaries(popper, reference, padding, boundariesElement) {
var fixedPosition = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : false;
// NOTE: 1 DOM access here
var boundaries = { top: 0, left: 0 };
var offsetParent = fixedPosition ? getFixedPositionOffsetParent(popper) : findCommonOffsetParent(popper, getReferenceNode(reference));
// Handle viewport case
if (boundariesElement === 'viewport') {
boundaries = getViewportOffsetRectRelativeToArtbitraryNode(offsetParent, fixedPosition);
} else {
// Handle other cases based on DOM element used as boundaries
var boundariesNode = void 0;
if (boundariesElement === 'scrollParent') {
boundariesNode = getScrollParent(getParentNode(reference));
if (boundariesNode.nodeName === 'BODY') {
boundariesNode = popper.ownerDocument.documentElement;
}
} else if (boundariesElement === 'window') {
boundariesNode = popper.ownerDocument.documentElement;
} else {
boundariesNode = boundariesElement;
}
var offsets = getOffsetRectRelativeToArbitraryNode(boundariesNode, offsetParent, fixedPosition);
// In case of HTML, we need a different computation
if (boundariesNode.nodeName === 'HTML' && !isFixed(offsetParent)) {
var _getWindowSizes = getWindowSizes(popper.ownerDocument),
height = _getWindowSizes.height,
width = _getWindowSizes.width;
boundaries.top += offsets.top - offsets.marginTop;
boundaries.bottom = height + offsets.top;
boundaries.left += offsets.left - offsets.marginLeft;
boundaries.right = width + offsets.left;
} else {
// for all the other DOM elements, this one is good
boundaries = offsets;
}
}
// Add paddings
padding = padding || 0;
var isPaddingNumber = typeof padding === 'number';
boundaries.left += isPaddingNumber ? padding : padding.left || 0;
boundaries.top += isPaddingNumber ? padding : padding.top || 0;
boundaries.right -= isPaddingNumber ? padding : padding.right || 0;
boundaries.bottom -= isPaddingNumber ? padding : padding.bottom || 0;
return boundaries;
}
function getArea(_ref) {
var width = _ref.width,
height = _ref.height;
return width * height;
}
/**
* Utility used to transform the `auto` placement to the placement with more
* available space.
* @method
* @memberof Popper.Utils
* @argument {Object} data - The data object generated by update method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function computeAutoPlacement(placement, refRect, popper, reference, boundariesElement) {
var padding = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : 0;
if (placement.indexOf('auto') === -1) {
return placement;
}
var boundaries = getBoundaries(popper, reference, padding, boundariesElement);
var rects = {
top: {
width: boundaries.width,
height: refRect.top - boundaries.top
},
right: {
width: boundaries.right - refRect.right,
height: boundaries.height
},
bottom: {
width: boundaries.width,
height: boundaries.bottom - refRect.bottom
},
left: {
width: refRect.left - boundaries.left,
height: boundaries.height
}
};
var sortedAreas = Object.keys(rects).map(function (key) {
return _extends({
key: key
}, rects[key], {
area: getArea(rects[key])
});
}).sort(function (a, b) {
return b.area - a.area;
});
var filteredAreas = sortedAreas.filter(function (_ref2) {
var width = _ref2.width,
height = _ref2.height;
return width >= popper.clientWidth && height >= popper.clientHeight;
});
var computedPlacement = filteredAreas.length > 0 ? filteredAreas[0].key : sortedAreas[0].key;
var variation = placement.split('-')[1];
return computedPlacement + (variation ? '-' + variation : '');
}
/**
* Get offsets to the reference element
* @method
* @memberof Popper.Utils
* @param {Object} state
* @param {Element} popper - the popper element
* @param {Element} reference - the reference element (the popper will be relative to this)
* @param {Element} fixedPosition - is in fixed position mode
* @returns {Object} An object containing the offsets which will be applied to the popper
*/
function getReferenceOffsets(state, popper, reference) {
var fixedPosition = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : null;
var commonOffsetParent = fixedPosition ? getFixedPositionOffsetParent(popper) : findCommonOffsetParent(popper, getReferenceNode(reference));
return getOffsetRectRelativeToArbitraryNode(reference, commonOffsetParent, fixedPosition);
}
/**
* Get the outer sizes of the given element (offset size + margins)
* @method
* @memberof Popper.Utils
* @argument {Element} element
* @returns {Object} object containing width and height properties
*/
function getOuterSizes(element) {
var window = element.ownerDocument.defaultView;
var styles = window.getComputedStyle(element);
var x = parseFloat(styles.marginTop || 0) + parseFloat(styles.marginBottom || 0);
var y = parseFloat(styles.marginLeft || 0) + parseFloat(styles.marginRight || 0);
var result = {
width: element.offsetWidth + y,
height: element.offsetHeight + x
};
return result;
}
/**
* Get the opposite placement of the given one
* @method
* @memberof Popper.Utils
* @argument {String} placement
* @returns {String} flipped placement
*/
function getOppositePlacement(placement) {
var hash = { left: 'right', right: 'left', bottom: 'top', top: 'bottom' };
return placement.replace(/left|right|bottom|top/g, function (matched) {
return hash[matched];
});
}
/**
* Get offsets to the popper
* @method
* @memberof Popper.Utils
* @param {Object} position - CSS position the Popper will get applied
* @param {HTMLElement} popper - the popper element
* @param {Object} referenceOffsets - the reference offsets (the popper will be relative to this)
* @param {String} placement - one of the valid placement options
* @returns {Object} popperOffsets - An object containing the offsets which will be applied to the popper
*/
function getPopperOffsets(popper, referenceOffsets, placement) {
placement = placement.split('-')[0];
// Get popper node sizes
var popperRect = getOuterSizes(popper);
// Add position, width and height to our offsets object
var popperOffsets = {
width: popperRect.width,
height: popperRect.height
};
// depending by the popper placement we have to compute its offsets slightly differently
var isHoriz = ['right', 'left'].indexOf(placement) !== -1;
var mainSide = isHoriz ? 'top' : 'left';
var secondarySide = isHoriz ? 'left' : 'top';
var measurement = isHoriz ? 'height' : 'width';
var secondaryMeasurement = !isHoriz ? 'height' : 'width';
popperOffsets[mainSide] = referenceOffsets[mainSide] + referenceOffsets[measurement] / 2 - popperRect[measurement] / 2;
if (placement === secondarySide) {
popperOffsets[secondarySide] = referenceOffsets[secondarySide] - popperRect[secondaryMeasurement];
} else {
popperOffsets[secondarySide] = referenceOffsets[getOppositePlacement(secondarySide)];
}
return popperOffsets;
}
/**
* Mimics the `find` method of Array
* @method
* @memberof Popper.Utils
* @argument {Array} arr
* @argument prop
* @argument value
* @returns index or -1
*/
function find(arr, check) {
// use native find if supported
if (Array.prototype.find) {
return arr.find(check);
}
// use `filter` to obtain the same behavior of `find`
return arr.filter(check)[0];
}
/**
* Return the index of the matching object
* @method
* @memberof Popper.Utils
* @argument {Array} arr
* @argument prop
* @argument value
* @returns index or -1
*/
function findIndex(arr, prop, value) {
// use native findIndex if supported
if (Array.prototype.findIndex) {
return arr.findIndex(function (cur) {
return cur[prop] === value;
});
}
// use `find` + `indexOf` if `findIndex` isn't supported
var match = find(arr, function (obj) {
return obj[prop] === value;
});
return arr.indexOf(match);
}
/**
* Loop trough the list of modifiers and run them in order,
* each of them will then edit the data object.
* @method
* @memberof Popper.Utils
* @param {dataObject} data
* @param {Array} modifiers
* @param {String} ends - Optional modifier name used as stopper
* @returns {dataObject}
*/
function runModifiers(modifiers, data, ends) {
var modifiersToRun = ends === undefined ? modifiers : modifiers.slice(0, findIndex(modifiers, 'name', ends));
modifiersToRun.forEach(function (modifier) {
if (modifier['function']) {
// eslint-disable-line dot-notation
console.warn('`modifier.function` is deprecated, use `modifier.fn`!');
}
var fn = modifier['function'] || modifier.fn; // eslint-disable-line dot-notation
if (modifier.enabled && isFunction(fn)) {
// Add properties to offsets to make them a complete clientRect object
// we do this before each modifier to make sure the previous one doesn't
// mess with these values
data.offsets.popper = getClientRect(data.offsets.popper);
data.offsets.reference = getClientRect(data.offsets.reference);
data = fn(data, modifier);
}
});
return data;
}
/**
* Updates the position of the popper, computing the new offsets and applying
* the new style.<br />
* Prefer `scheduleUpdate` over `update` because of performance reasons.
* @method
* @memberof Popper
*/
function update() {
// if popper is destroyed, don't perform any further update
if (this.state.isDestroyed) {
return;
}
var data = {
instance: this,
styles: {},
arrowStyles: {},
attributes: {},
flipped: false,
offsets: {}
};
// compute reference element offsets
data.offsets.reference = getReferenceOffsets(this.state, this.popper, this.reference, this.options.positionFixed);
// compute auto placement, store placement inside the data object,
// modifiers will be able to edit `placement` if needed
// and refer to originalPlacement to know the original value
data.placement = computeAutoPlacement(this.options.placement, data.offsets.reference, this.popper, this.reference, this.options.modifiers.flip.boundariesElement, this.options.modifiers.flip.padding);
// store the computed placement inside `originalPlacement`
data.originalPlacement = data.placement;
data.positionFixed = this.options.positionFixed;
// compute the popper offsets
data.offsets.popper = getPopperOffsets(this.popper, data.offsets.reference, data.placement);
data.offsets.popper.position = this.options.positionFixed ? 'fixed' : 'absolute';
// run the modifiers
data = runModifiers(this.modifiers, data);
// the first `update` will call `onCreate` callback
// the other ones will call `onUpdate` callback
if (!this.state.isCreated) {
this.state.isCreated = true;
this.options.onCreate(data);
} else {
this.options.onUpdate(data);
}
}
/**
* Helper used to know if the given modifier is enabled.
* @method
* @memberof Popper.Utils
* @returns {Boolean}
*/
function isModifierEnabled(modifiers, modifierName) {
return modifiers.some(function (_ref) {
var name = _ref.name,
enabled = _ref.enabled;
return enabled && name === modifierName;
});
}
/**
* Get the prefixed supported property name
* @method
* @memberof Popper.Utils
* @argument {String} property (camelCase)
* @returns {String} prefixed property (camelCase or PascalCase, depending on the vendor prefix)
*/
function getSupportedPropertyName(property) {
var prefixes = [false, 'ms', 'Webkit', 'Moz', 'O'];
var upperProp = property.charAt(0).toUpperCase() + property.slice(1);
for (var i = 0; i < prefixes.length; i++) {
var prefix = prefixes[i];
var toCheck = prefix ? '' + prefix + upperProp : property;
if (typeof document.body.style[toCheck] !== 'undefined') {
return toCheck;
}
}
return null;
}
/**
* Destroys the popper.
* @method
* @memberof Popper
*/
function destroy() {
this.state.isDestroyed = true;
// touch DOM only if `applyStyle` modifier is enabled
if (isModifierEnabled(this.modifiers, 'applyStyle')) {
this.popper.removeAttribute('x-placement');
this.popper.style.position = '';
this.popper.style.top = '';
this.popper.style.left = '';
this.popper.style.right = '';
this.popper.style.bottom = '';
this.popper.style.willChange = '';
this.popper.style[getSupportedPropertyName('transform')] = '';
}
this.disableEventListeners();
// remove the popper if user explicitly asked for the deletion on destroy
// do not use `remove` because IE11 doesn't support it
if (this.options.removeOnDestroy) {
this.popper.parentNode.removeChild(this.popper);
}
return this;
}
/**
* Get the window associated with the element
* @argument {Element} element
* @returns {Window}
*/
function getWindow(element) {
var ownerDocument = element.ownerDocument;
return ownerDocument ? ownerDocument.defaultView : window;
}
function attachToScrollParents(scrollParent, event, callback, scrollParents) {
var isBody = scrollParent.nodeName === 'BODY';
var target = isBody ? scrollParent.ownerDocument.defaultView : scrollParent;
target.addEventListener(event, callback, { passive: true });
if (!isBody) {
attachToScrollParents(getScrollParent(target.parentNode), event, callback, scrollParents);
}
scrollParents.push(target);
}
/**
* Setup needed event listeners used to update the popper position
* @method
* @memberof Popper.Utils
* @private
*/
function setupEventListeners(reference, options, state, updateBound) {
// Resize event listener on window
state.updateBound = updateBound;
getWindow(reference).addEventListener('resize', state.updateBound, { passive: true });
// Scroll event listener on scroll parents
var scrollElement = getScrollParent(reference);
attachToScrollParents(scrollElement, 'scroll', state.updateBound, state.scrollParents);
state.scrollElement = scrollElement;
state.eventsEnabled = true;
return state;
}
/**
* It will add resize/scroll events and start recalculating
* position of the popper element when they are triggered.
* @method
* @memberof Popper
*/
function enableEventListeners() {
if (!this.state.eventsEnabled) {
this.state = setupEventListeners(this.reference, this.options, this.state, this.scheduleUpdate);
}
}
/**
* Remove event listeners used to update the popper position
* @method
* @memberof Popper.Utils
* @private
*/
function removeEventListeners(reference, state) {
// Remove resize event listener on window
getWindow(reference).removeEventListener('resize', state.updateBound);
// Remove scroll event listener on scroll parents
state.scrollParents.forEach(function (target) {
target.removeEventListener('scroll', state.updateBound);
});
// Reset state
state.updateBound = null;
state.scrollParents = [];
state.scrollElement = null;
state.eventsEnabled = false;
return state;
}
/**
* It will remove resize/scroll events and won't recalculate popper position
* when they are triggered. It also won't trigger `onUpdate` callback anymore,
* unless you call `update` method manually.
* @method
* @memberof Popper
*/
function disableEventListeners() {
if (this.state.eventsEnabled) {
cancelAnimationFrame(this.scheduleUpdate);
this.state = removeEventListeners(this.reference, this.state);
}
}
/**
* Tells if a given input is a number
* @method
* @memberof Popper.Utils
* @param {*} input to check
* @return {Boolean}
*/
function isNumeric(n) {
return n !== '' && !isNaN(parseFloat(n)) && isFinite(n);
}
/**
* Set the style to the given popper
* @method
* @memberof Popper.Utils
* @argument {Element} element - Element to apply the style to
* @argument {Object} styles
* Object with a list of properties and values which will be applied to the element
*/
function setStyles(element, styles) {
Object.keys(styles).forEach(function (prop) {
var unit = '';
// add unit if the value is numeric and is one of the following
if (['width', 'height', 'top', 'right', 'bottom', 'left'].indexOf(prop) !== -1 && isNumeric(styles[prop])) {
unit = 'px';
}
element.style[prop] = styles[prop] + unit;
});
}
/**
* Set the attributes to the given popper
* @method
* @memberof Popper.Utils
* @argument {Element} element - Element to apply the attributes to
* @argument {Object} styles
* Object with a list of properties and values which will be applied to the element
*/
function setAttributes(element, attributes) {
Object.keys(attributes).forEach(function (prop) {
var value = attributes[prop];
if (value !== false) {
element.setAttribute(prop, attributes[prop]);
} else {
element.removeAttribute(prop);
}
});
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by `update` method
* @argument {Object} data.styles - List of style properties - values to apply to popper element
* @argument {Object} data.attributes - List of attribute properties - values to apply to popper element
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The same data object
*/
function applyStyle(data) {
// any property present in `data.styles` will be applied to the popper,
// in this way we can make the 3rd party modifiers add custom styles to it
// Be aware, modifiers could override the properties defined in the previous
// lines of this modifier!
setStyles(data.instance.popper, data.styles);
// any property present in `data.attributes` will be applied to the popper,
// they will be set as HTML attributes of the element
setAttributes(data.instance.popper, data.attributes);
// if arrowElement is defined and arrowStyles has some properties
if (data.arrowElement && Object.keys(data.arrowStyles).length) {
setStyles(data.arrowElement, data.arrowStyles);
}
return data;
}
/**
* Set the x-placement attribute before everything else because it could be used
* to add margins to the popper margins needs to be calculated to get the
* correct popper offsets.
* @method
* @memberof Popper.modifiers
* @param {HTMLElement} reference - The reference element used to position the popper
* @param {HTMLElement} popper - The HTML element used as popper
* @param {Object} options - Popper.js options
*/
function applyStyleOnLoad(reference, popper, options, modifierOptions, state) {
// compute reference element offsets
var referenceOffsets = getReferenceOffsets(state, popper, reference, options.positionFixed);
// compute auto placement, store placement inside the data object,
// modifiers will be able to edit `placement` if needed
// and refer to originalPlacement to know the original value
var placement = computeAutoPlacement(options.placement, referenceOffsets, popper, reference, options.modifiers.flip.boundariesElement, options.modifiers.flip.padding);
popper.setAttribute('x-placement', placement);
// Apply `position` to popper before anything else because
// without the position applied we can't guarantee correct computations
setStyles(popper, { position: options.positionFixed ? 'fixed' : 'absolute' });
return options;
}
/**
* @function
* @memberof Popper.Utils
* @argument {Object} data - The data object generated by `update` method
* @argument {Boolean} shouldRound - If the offsets should be rounded at all
* @returns {Object} The popper's position offsets rounded
*
* The tale of pixel-perfect positioning. It's still not 100% perfect, but as
* good as it can be within reason.
* Discussion here: https://github.com/FezVrasta/popper.js/pull/715
*
* Low DPI screens cause a popper to be blurry if not using full pixels (Safari
* as well on High DPI screens).
*
* Firefox prefers no rounding for positioning and does not have blurriness on
* high DPI screens.
*
* Only horizontal placement and left/right values need to be considered.
*/
function getRoundedOffsets(data, shouldRound) {
var _data$offsets = data.offsets,
popper = _data$offsets.popper,
reference = _data$offsets.reference;
var round = Math.round,
floor = Math.floor;
var noRound = function noRound(v) {
return v;
};
var referenceWidth = round(reference.width);
var popperWidth = round(popper.width);
var isVertical = ['left', 'right'].indexOf(data.placement) !== -1;
var isVariation = data.placement.indexOf('-') !== -1;
var sameWidthParity = referenceWidth % 2 === popperWidth % 2;
var bothOddWidth = referenceWidth % 2 === 1 && popperWidth % 2 === 1;
var horizontalToInteger = !shouldRound ? noRound : isVertical || isVariation || sameWidthParity ? round : floor;
var verticalToInteger = !shouldRound ? noRound : round;
return {
left: horizontalToInteger(bothOddWidth && !isVariation && shouldRound ? popper.left - 1 : popper.left),
top: verticalToInteger(popper.top),
bottom: verticalToInteger(popper.bottom),
right: horizontalToInteger(popper.right)
};
}
var isFirefox = isBrowser && /Firefox/i.test(navigator.userAgent);
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by `update` method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function computeStyle(data, options) {
var x = options.x,
y = options.y;
var popper = data.offsets.popper;
// Remove this legacy support in Popper.js v2
var legacyGpuAccelerationOption = find(data.instance.modifiers, function (modifier) {
return modifier.name === 'applyStyle';
}).gpuAcceleration;
if (legacyGpuAccelerationOption !== undefined) {
console.warn('WARNING: `gpuAcceleration` option moved to `computeStyle` modifier and will not be supported in future versions of Popper.js!');
}
var gpuAcceleration = legacyGpuAccelerationOption !== undefined ? legacyGpuAccelerationOption : options.gpuAcceleration;
var offsetParent = getOffsetParent(data.instance.popper);
var offsetParentRect = getBoundingClientRect(offsetParent);
// Styles
var styles = {
position: popper.position
};
var offsets = getRoundedOffsets(data, window.devicePixelRatio < 2 || !isFirefox);
var sideA = x === 'bottom' ? 'top' : 'bottom';
var sideB = y === 'right' ? 'left' : 'right';
// if gpuAcceleration is set to `true` and transform is supported,
// we use `translate3d` to apply the position to the popper we
// automatically use the supported prefixed version if needed
var prefixedProperty = getSupportedPropertyName('transform');
// now, let's make a step back and look at this code closely (wtf?)
// If the content of the popper grows once it's been positioned, it
// may happen that the popper gets misplaced because of the new content
// overflowing its reference element
// To avoid this problem, we provide two options (x and y), which allow
// the consumer to define the offset origin.
// If we position a popper on top of a reference element, we can set
// `x` to `top` to make the popper grow towards its top instead of
// its bottom.
var left = void 0,
top = void 0;
if (sideA === 'bottom') {
// when offsetParent is <html> the positioning is relative to the bottom of the screen (excluding the scrollbar)
// and not the bottom of the html element
if (offsetParent.nodeName === 'HTML') {
top = -offsetParent.clientHeight + offsets.bottom;
} else {
top = -offsetParentRect.height + offsets.bottom;
}
} else {
top = offsets.top;
}
if (sideB === 'right') {
if (offsetParent.nodeName === 'HTML') {
left = -offsetParent.clientWidth + offsets.right;
} else {
left = -offsetParentRect.width + offsets.right;
}
} else {
left = offsets.left;
}
if (gpuAcceleration && prefixedProperty) {
styles[prefixedProperty] = 'translate3d(' + left + 'px, ' + top + 'px, 0)';
styles[sideA] = 0;
styles[sideB] = 0;
styles.willChange = 'transform';
} else {
// othwerise, we use the standard `top`, `left`, `bottom` and `right` properties
var invertTop = sideA === 'bottom' ? -1 : 1;
var invertLeft = sideB === 'right' ? -1 : 1;
styles[sideA] = top * invertTop;
styles[sideB] = left * invertLeft;
styles.willChange = sideA + ', ' + sideB;
}
// Attributes
var attributes = {
'x-placement': data.placement
};
// Update `data` attributes, styles and arrowStyles
data.attributes = _extends({}, attributes, data.attributes);
data.styles = _extends({}, styles, data.styles);
data.arrowStyles = _extends({}, data.offsets.arrow, data.arrowStyles);
return data;
}
/**
* Helper used to know if the given modifier depends from another one.<br />
* It checks if the needed modifier is listed and enabled.
* @method
* @memberof Popper.Utils
* @param {Array} modifiers - list of modifiers
* @param {String} requestingName - name of requesting modifier
* @param {String} requestedName - name of requested modifier
* @returns {Boolean}
*/
function isModifierRequired(modifiers, requestingName, requestedName) {
var requesting = find(modifiers, function (_ref) {
var name = _ref.name;
return name === requestingName;
});
var isRequired = !!requesting && modifiers.some(function (modifier) {
return modifier.name === requestedName && modifier.enabled && modifier.order < requesting.order;
});
if (!isRequired) {
var _requesting = '`' + requestingName + '`';
var requested = '`' + requestedName + '`';
console.warn(requested + ' modifier is required by ' + _requesting + ' modifier in order to work, be sure to include it before ' + _requesting + '!');
}
return isRequired;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by update method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function arrow(data, options) {
var _data$offsets$arrow;
// arrow depends on keepTogether in order to work
if (!isModifierRequired(data.instance.modifiers, 'arrow', 'keepTogether')) {
return data;
}
var arrowElement = options.element;
// if arrowElement is a string, suppose it's a CSS selector
if (typeof arrowElement === 'string') {
arrowElement = data.instance.popper.querySelector(arrowElement);
// if arrowElement is not found, don't run the modifier
if (!arrowElement) {
return data;
}
} else {
// if the arrowElement isn't a query selector we must check that the
// provided DOM node is child of its popper node
if (!data.instance.popper.contains(arrowElement)) {
console.warn('WARNING: `arrow.element` must be child of its popper element!');
return data;
}
}
var placement = data.placement.split('-')[0];
var _data$offsets = data.offsets,
popper = _data$offsets.popper,
reference = _data$offsets.reference;
var isVertical = ['left', 'right'].indexOf(placement) !== -1;
var len = isVertical ? 'height' : 'width';
var sideCapitalized = isVertical ? 'Top' : 'Left';
var side = sideCapitalized.toLowerCase();
var altSide = isVertical ? 'left' : 'top';
var opSide = isVertical ? 'bottom' : 'right';
var arrowElementSize = getOuterSizes(arrowElement)[len];
//
// extends keepTogether behavior making sure the popper and its
// reference have enough pixels in conjunction
//
// top/left side
if (reference[opSide] - arrowElementSize < popper[side]) {
data.offsets.popper[side] -= popper[side] - (reference[opSide] - arrowElementSize);
}
// bottom/right side
if (reference[side] + arrowElementSize > popper[opSide]) {
data.offsets.popper[side] += reference[side] + arrowElementSize - popper[opSide];
}
data.offsets.popper = getClientRect(data.offsets.popper);
// compute center of the popper
var center = reference[side] + reference[len] / 2 - arrowElementSize / 2;
// Compute the sideValue using the updated popper offsets
// take popper margin in account because we don't have this info available
var css = getStyleComputedProperty(data.instance.popper);
var popperMarginSide = parseFloat(css['margin' + sideCapitalized]);
var popperBorderSide = parseFloat(css['border' + sideCapitalized + 'Width']);
var sideValue = center - data.offsets.popper[side] - popperMarginSide - popperBorderSide;
// prevent arrowElement from being placed not contiguously to its popper
sideValue = Math.max(Math.min(popper[len] - arrowElementSize, sideValue), 0);
data.arrowElement = arrowElement;
data.offsets.arrow = (_data$offsets$arrow = {}, defineProperty(_data$offsets$arrow, side, Math.round(sideValue)), defineProperty(_data$offsets$arrow, altSide, ''), _data$offsets$arrow);
return data;
}
/**
* Get the opposite placement variation of the given one
* @method
* @memberof Popper.Utils
* @argument {String} placement variation
* @returns {String} flipped placement variation
*/
function getOppositeVariation(variation) {
if (variation === 'end') {
return 'start';
} else if (variation === 'start') {
return 'end';
}
return variation;
}
/**
* List of accepted placements to use as values of the `placement` option.<br />
* Valid placements are:
* - `auto`
* - `top`
* - `right`
* - `bottom`
* - `left`
*
* Each placement can have a variation from this list:
* - `-start`
* - `-end`
*
* Variations are interpreted easily if you think of them as the left to right
* written languages. Horizontally (`top` and `bottom`), `start` is left and `end`
* is right.<br />
* Vertically (`left` and `right`), `start` is top and `end` is bottom.
*
* Some valid examples are:
* - `top-end` (on top of reference, right aligned)
* - `right-start` (on right of reference, top aligned)
* - `bottom` (on bottom, centered)
* - `auto-end` (on the side with more space available, alignment depends by placement)
*
* @static
* @type {Array}
* @enum {String}
* @readonly
* @method placements
* @memberof Popper
*/
var placements = ['auto-start', 'auto', 'auto-end', 'top-start', 'top', 'top-end', 'right-start', 'right', 'right-end', 'bottom-end', 'bottom', 'bottom-start', 'left-end', 'left', 'left-start'];
// Get rid of `auto` `auto-start` and `auto-end`
var validPlacements = placements.slice(3);
/**
* Given an initial placement, returns all the subsequent placements
* clockwise (or counter-clockwise).
*
* @method
* @memberof Popper.Utils
* @argument {String} placement - A valid placement (it accepts variations)
* @argument {Boolean} counter - Set to true to walk the placements counterclockwise
* @returns {Array} placements including their variations
*/
function clockwise(placement) {
var counter = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false;
var index = validPlacements.indexOf(placement);
var arr = validPlacements.slice(index + 1).concat(validPlacements.slice(0, index));
return counter ? arr.reverse() : arr;
}
var BEHAVIORS = {
FLIP: 'flip',
CLOCKWISE: 'clockwise',
COUNTERCLOCKWISE: 'counterclockwise'
};
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by update method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function flip(data, options) {
// if `inner` modifier is enabled, we can't use the `flip` modifier
if (isModifierEnabled(data.instance.modifiers, 'inner')) {
return data;
}
if (data.flipped && data.placement === data.originalPlacement) {
// seems like flip is trying to loop, probably there's not enough space on any of the flippable sides
return data;
}
var boundaries = getBoundaries(data.instance.popper, data.instance.reference, options.padding, options.boundariesElement, data.positionFixed);
var placement = data.placement.split('-')[0];
var placementOpposite = getOppositePlacement(placement);
var variation = data.placement.split('-')[1] || '';
var flipOrder = [];
switch (options.behavior) {
case BEHAVIORS.FLIP:
flipOrder = [placement, placementOpposite];
break;
case BEHAVIORS.CLOCKWISE:
flipOrder = clockwise(placement);
break;
case BEHAVIORS.COUNTERCLOCKWISE:
flipOrder = clockwise(placement, true);
break;
default:
flipOrder = options.behavior;
}
flipOrder.forEach(function (step, index) {
if (placement !== step || flipOrder.length === index + 1) {
return data;
}
placement = data.placement.split('-')[0];
placementOpposite = getOppositePlacement(placement);
var popperOffsets = data.offsets.popper;
var refOffsets = data.offsets.reference;
// using floor because the reference offsets may contain decimals we are not going to consider here
var floor = Math.floor;
var overlapsRef = placement === 'left' && floor(popperOffsets.right) > floor(refOffsets.left) || placement === 'right' && floor(popperOffsets.left) < floor(refOffsets.right) || placement === 'top' && floor(popperOffsets.bottom) > floor(refOffsets.top) || placement === 'bottom' && floor(popperOffsets.top) < floor(refOffsets.bottom);
var overflowsLeft = floor(popperOffsets.left) < floor(boundaries.left);
var overflowsRight = floor(popperOffsets.right) > floor(boundaries.right);
var overflowsTop = floor(popperOffsets.top) < floor(boundaries.top);
var overflowsBottom = floor(popperOffsets.bottom) > floor(boundaries.bottom);
var overflowsBoundaries = placement === 'left' && overflowsLeft || placement === 'right' && overflowsRight || placement === 'top' && overflowsTop || placement === 'bottom' && overflowsBottom;
// flip the variation if required
var isVertical = ['top', 'bottom'].indexOf(placement) !== -1;
// flips variation if reference element overflows boundaries
var flippedVariationByRef = !!options.flipVariations && (isVertical && variation === 'start' && overflowsLeft || isVertical && variation === 'end' && overflowsRight || !isVertical && variation === 'start' && overflowsTop || !isVertical && variation === 'end' && overflowsBottom);
// flips variation if popper content overflows boundaries
var flippedVariationByContent = !!options.flipVariationsByContent && (isVertical && variation === 'start' && overflowsRight || isVertical && variation === 'end' && overflowsLeft || !isVertical && variation === 'start' && overflowsBottom || !isVertical && variation === 'end' && overflowsTop);
var flippedVariation = flippedVariationByRef || flippedVariationByContent;
if (overlapsRef || overflowsBoundaries || flippedVariation) {
// this boolean to detect any flip loop
data.flipped = true;
if (overlapsRef || overflowsBoundaries) {
placement = flipOrder[index + 1];
}
if (flippedVariation) {
variation = getOppositeVariation(variation);
}
data.placement = placement + (variation ? '-' + variation : '');
// this object contains `position`, we want to preserve it along with
// any additional property we may add in the future
data.offsets.popper = _extends({}, data.offsets.popper, getPopperOffsets(data.instance.popper, data.offsets.reference, data.placement));
data = runModifiers(data.instance.modifiers, data, 'flip');
}
});
return data;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by update method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function keepTogether(data) {
var _data$offsets = data.offsets,
popper = _data$offsets.popper,
reference = _data$offsets.reference;
var placement = data.placement.split('-')[0];
var floor = Math.floor;
var isVertical = ['top', 'bottom'].indexOf(placement) !== -1;
var side = isVertical ? 'right' : 'bottom';
var opSide = isVertical ? 'left' : 'top';
var measurement = isVertical ? 'width' : 'height';
if (popper[side] < floor(reference[opSide])) {
data.offsets.popper[opSide] = floor(reference[opSide]) - popper[measurement];
}
if (popper[opSide] > floor(reference[side])) {
data.offsets.popper[opSide] = floor(reference[side]);
}
return data;
}
/**
* Converts a string containing value + unit into a px value number
* @function
* @memberof {modifiers~offset}
* @private
* @argument {String} str - Value + unit string
* @argument {String} measurement - `height` or `width`
* @argument {Object} popperOffsets
* @argument {Object} referenceOffsets
* @returns {Number|String}
* Value in pixels, or original string if no values were extracted
*/
function toValue(str, measurement, popperOffsets, referenceOffsets) {
// separate value from unit
var split = str.match(/((?:\-|\+)?\d*\.?\d*)(.*)/);
var value = +split[1];
var unit = split[2];
// If it's not a number it's an operator, I guess
if (!value) {
return str;
}
if (unit.indexOf('%') === 0) {
var element = void 0;
switch (unit) {
case '%p':
element = popperOffsets;
break;
case '%':
case '%r':
default:
element = referenceOffsets;
}
var rect = getClientRect(element);
return rect[measurement] / 100 * value;
} else if (unit === 'vh' || unit === 'vw') {
// if is a vh or vw, we calculate the size based on the viewport
var size = void 0;
if (unit === 'vh') {
size = Math.max(document.documentElement.clientHeight, window.innerHeight || 0);
} else {
size = Math.max(document.documentElement.clientWidth, window.innerWidth || 0);
}
return size / 100 * value;
} else {
// if is an explicit pixel unit, we get rid of the unit and keep the value
// if is an implicit unit, it's px, and we return just the value
return value;
}
}
/**
* Parse an `offset` string to extrapolate `x` and `y` numeric offsets.
* @function
* @memberof {modifiers~offset}
* @private
* @argument {String} offset
* @argument {Object} popperOffsets
* @argument {Object} referenceOffsets
* @argument {String} basePlacement
* @returns {Array} a two cells array with x and y offsets in numbers
*/
function parseOffset(offset, popperOffsets, referenceOffsets, basePlacement) {
var offsets = [0, 0];
// Use height if placement is left or right and index is 0 otherwise use width
// in this way the first offset will use an axis and the second one
// will use the other one
var useHeight = ['right', 'left'].indexOf(basePlacement) !== -1;
// Split the offset string to obtain a list of values and operands
// The regex addresses values with the plus or minus sign in front (+10, -20, etc)
var fragments = offset.split(/(\+|\-)/).map(function (frag) {
return frag.trim();
});
// Detect if the offset string contains a pair of values or a single one
// they could be separated by comma or space
var divider = fragments.indexOf(find(fragments, function (frag) {
return frag.search(/,|\s/) !== -1;
}));
if (fragments[divider] && fragments[divider].indexOf(',') === -1) {
console.warn('Offsets separated by white space(s) are deprecated, use a comma (,) instead.');
}
// If divider is found, we divide the list of values and operands to divide
// them by ofset X and Y.
var splitRegex = /\s*,\s*|\s+/;
var ops = divider !== -1 ? [fragments.slice(0, divider).concat([fragments[divider].split(splitRegex)[0]]), [fragments[divider].split(splitRegex)[1]].concat(fragments.slice(divider + 1))] : [fragments];
// Convert the values with units to absolute pixels to allow our computations
ops = ops.map(function (op, index) {
// Most of the units rely on the orientation of the popper
var measurement = (index === 1 ? !useHeight : useHeight) ? 'height' : 'width';
var mergeWithPrevious = false;
return op
// This aggregates any `+` or `-` sign that aren't considered operators
// e.g.: 10 + +5 => [10, +, +5]
.reduce(function (a, b) {
if (a[a.length - 1] === '' && ['+', '-'].indexOf(b) !== -1) {
a[a.length - 1] = b;
mergeWithPrevious = true;
return a;
} else if (mergeWithPrevious) {
a[a.length - 1] += b;
mergeWithPrevious = false;
return a;
} else {
return a.concat(b);
}
}, [])
// Here we convert the string values into number values (in px)
.map(function (str) {
return toValue(str, measurement, popperOffsets, referenceOffsets);
});
});
// Loop trough the offsets arrays and execute the operations
ops.forEach(function (op, index) {
op.forEach(function (frag, index2) {
if (isNumeric(frag)) {
offsets[index] += frag * (op[index2 - 1] === '-' ? -1 : 1);
}
});
});
return offsets;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by update method
* @argument {Object} options - Modifiers configuration and options
* @argument {Number|String} options.offset=0
* The offset value as described in the modifier description
* @returns {Object} The data object, properly modified
*/
function offset(data, _ref) {
var offset = _ref.offset;
var placement = data.placement,
_data$offsets = data.offsets,
popper = _data$offsets.popper,
reference = _data$offsets.reference;
var basePlacement = placement.split('-')[0];
var offsets = void 0;
if (isNumeric(+offset)) {
offsets = [+offset, 0];
} else {
offsets = parseOffset(offset, popper, reference, basePlacement);
}
if (basePlacement === 'left') {
popper.top += offsets[0];
popper.left -= offsets[1];
} else if (basePlacement === 'right') {
popper.top += offsets[0];
popper.left += offsets[1];
} else if (basePlacement === 'top') {
popper.left += offsets[0];
popper.top -= offsets[1];
} else if (basePlacement === 'bottom') {
popper.left += offsets[0];
popper.top += offsets[1];
}
data.popper = popper;
return data;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by `update` method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function preventOverflow(data, options) {
var boundariesElement = options.boundariesElement || getOffsetParent(data.instance.popper);
// If offsetParent is the reference element, we really want to
// go one step up and use the next offsetParent as reference to
// avoid to make this modifier completely useless and look like broken
if (data.instance.reference === boundariesElement) {
boundariesElement = getOffsetParent(boundariesElement);
}
// NOTE: DOM access here
// resets the popper's position so that the document size can be calculated excluding
// the size of the popper element itself
var transformProp = getSupportedPropertyName('transform');
var popperStyles = data.instance.popper.style; // assignment to help minification
var top = popperStyles.top,
left = popperStyles.left,
transform = popperStyles[transformProp];
popperStyles.top = '';
popperStyles.left = '';
popperStyles[transformProp] = '';
var boundaries = getBoundaries(data.instance.popper, data.instance.reference, options.padding, boundariesElement, data.positionFixed);
// NOTE: DOM access here
// restores the original style properties after the offsets have been computed
popperStyles.top = top;
popperStyles.left = left;
popperStyles[transformProp] = transform;
options.boundaries = boundaries;
var order = options.priority;
var popper = data.offsets.popper;
var check = {
primary: function primary(placement) {
var value = popper[placement];
if (popper[placement] < boundaries[placement] && !options.escapeWithReference) {
value = Math.max(popper[placement], boundaries[placement]);
}
return defineProperty({}, placement, value);
},
secondary: function secondary(placement) {
var mainSide = placement === 'right' ? 'left' : 'top';
var value = popper[mainSide];
if (popper[placement] > boundaries[placement] && !options.escapeWithReference) {
value = Math.min(popper[mainSide], boundaries[placement] - (placement === 'right' ? popper.width : popper.height));
}
return defineProperty({}, mainSide, value);
}
};
order.forEach(function (placement) {
var side = ['left', 'top'].indexOf(placement) !== -1 ? 'primary' : 'secondary';
popper = _extends({}, popper, check[side](placement));
});
data.offsets.popper = popper;
return data;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by `update` method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function shift(data) {
var placement = data.placement;
var basePlacement = placement.split('-')[0];
var shiftvariation = placement.split('-')[1];
// if shift shiftvariation is specified, run the modifier
if (shiftvariation) {
var _data$offsets = data.offsets,
reference = _data$offsets.reference,
popper = _data$offsets.popper;
var isVertical = ['bottom', 'top'].indexOf(basePlacement) !== -1;
var side = isVertical ? 'left' : 'top';
var measurement = isVertical ? 'width' : 'height';
var shiftOffsets = {
start: defineProperty({}, side, reference[side]),
end: defineProperty({}, side, reference[side] + reference[measurement] - popper[measurement])
};
data.offsets.popper = _extends({}, popper, shiftOffsets[shiftvariation]);
}
return data;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by update method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function hide(data) {
if (!isModifierRequired(data.instance.modifiers, 'hide', 'preventOverflow')) {
return data;
}
var refRect = data.offsets.reference;
var bound = find(data.instance.modifiers, function (modifier) {
return modifier.name === 'preventOverflow';
}).boundaries;
if (refRect.bottom < bound.top || refRect.left > bound.right || refRect.top > bound.bottom || refRect.right < bound.left) {
// Avoid unnecessary DOM access if visibility hasn't changed
if (data.hide === true) {
return data;
}
data.hide = true;
data.attributes['x-out-of-boundaries'] = '';
} else {
// Avoid unnecessary DOM access if visibility hasn't changed
if (data.hide === false) {
return data;
}
data.hide = false;
data.attributes['x-out-of-boundaries'] = false;
}
return data;
}
/**
* @function
* @memberof Modifiers
* @argument {Object} data - The data object generated by `update` method
* @argument {Object} options - Modifiers configuration and options
* @returns {Object} The data object, properly modified
*/
function inner(data) {
var placement = data.placement;
var basePlacement = placement.split('-')[0];
var _data$offsets = data.offsets,
popper = _data$offsets.popper,
reference = _data$offsets.reference;
var isHoriz = ['left', 'right'].indexOf(basePlacement) !== -1;
var subtractLength = ['top', 'left'].indexOf(basePlacement) === -1;
popper[isHoriz ? 'left' : 'top'] = reference[basePlacement] - (subtractLength ? popper[isHoriz ? 'width' : 'height'] : 0);
data.placement = getOppositePlacement(placement);
data.offsets.popper = getClientRect(popper);
return data;
}
/**
* Modifier function, each modifier can have a function of this type assigned
* to its `fn` property.<br />
* These functions will be called on each update, this means that you must
* make sure they are performant enough to avoid performance bottlenecks.
*
* @function ModifierFn
* @argument {dataObject} data - The data object generated by `update` method
* @argument {Object} options - Modifiers configuration and options
* @returns {dataObject} The data object, properly modified
*/
/**
* Modifiers are plugins used to alter the behavior of your poppers.<br />
* Popper.js uses a set of 9 modifiers to provide all the basic functionalities
* needed by the library.
*
* Usually you don't want to override the `order`, `fn` and `onLoad` props.
* All the other properties are configurations that could be tweaked.
* @namespace modifiers
*/
var modifiers = {
/**
* Modifier used to shift the popper on the start or end of its reference
* element.<br />
* It will read the variation of the `placement` property.<br />
* It can be one either `-end` or `-start`.
* @memberof modifiers
* @inner
*/
shift: {
/** @prop {number} order=100 - Index used to define the order of execution */
order: 100,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: shift
},
/**
* The `offset` modifier can shift your popper on both its axis.
*
* It accepts the following units:
* - `px` or unit-less, interpreted as pixels
* - `%` or `%r`, percentage relative to the length of the reference element
* - `%p`, percentage relative to the length of the popper element
* - `vw`, CSS viewport width unit
* - `vh`, CSS viewport height unit
*
* For length is intended the main axis relative to the placement of the popper.<br />
* This means that if the placement is `top` or `bottom`, the length will be the
* `width`. In case of `left` or `right`, it will be the `height`.
*
* You can provide a single value (as `Number` or `String`), or a pair of values
* as `String` divided by a comma or one (or more) white spaces.<br />
* The latter is a deprecated method because it leads to confusion and will be
* removed in v2.<br />
* Additionally, it accepts additions and subtractions between different units.
* Note that multiplications and divisions aren't supported.
*
* Valid examples are:
* ```
* 10
* '10%'
* '10, 10'
* '10%, 10'
* '10 + 10%'
* '10 - 5vh + 3%'
* '-10px + 5vh, 5px - 6%'
* ```
* > **NB**: If you desire to apply offsets to your poppers in a way that may make them overlap
* > with their reference element, unfortunately, you will have to disable the `flip` modifier.
* > You can read more on this at this [issue](https://github.com/FezVrasta/popper.js/issues/373).
*
* @memberof modifiers
* @inner
*/
offset: {
/** @prop {number} order=200 - Index used to define the order of execution */
order: 200,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: offset,
/** @prop {Number|String} offset=0
* The offset value as described in the modifier description
*/
offset: 0
},
/**
* Modifier used to prevent the popper from being positioned outside the boundary.
*
* A scenario exists where the reference itself is not within the boundaries.<br />
* We can say it has "escaped the boundaries" — or just "escaped".<br />
* In this case we need to decide whether the popper should either:
*
* - detach from the reference and remain "trapped" in the boundaries, or
* - if it should ignore the boundary and "escape with its reference"
*
* When `escapeWithReference` is set to`true` and reference is completely
* outside its boundaries, the popper will overflow (or completely leave)
* the boundaries in order to remain attached to the edge of the reference.
*
* @memberof modifiers
* @inner
*/
preventOverflow: {
/** @prop {number} order=300 - Index used to define the order of execution */
order: 300,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: preventOverflow,
/**
* @prop {Array} [priority=['left','right','top','bottom']]
* Popper will try to prevent overflow following these priorities by default,
* then, it could overflow on the left and on top of the `boundariesElement`
*/
priority: ['left', 'right', 'top', 'bottom'],
/**
* @prop {number} padding=5
* Amount of pixel used to define a minimum distance between the boundaries
* and the popper. This makes sure the popper always has a little padding
* between the edges of its container
*/
padding: 5,
/**
* @prop {String|HTMLElement} boundariesElement='scrollParent'
* Boundaries used by the modifier. Can be `scrollParent`, `window`,
* `viewport` or any DOM element.
*/
boundariesElement: 'scrollParent'
},
/**
* Modifier used to make sure the reference and its popper stay near each other
* without leaving any gap between the two. Especially useful when the arrow is
* enabled and you want to ensure that it points to its reference element.
* It cares only about the first axis. You can still have poppers with margin
* between the popper and its reference element.
* @memberof modifiers
* @inner
*/
keepTogether: {
/** @prop {number} order=400 - Index used to define the order of execution */
order: 400,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: keepTogether
},
/**
* This modifier is used to move the `arrowElement` of the popper to make
* sure it is positioned between the reference element and its popper element.
* It will read the outer size of the `arrowElement` node to detect how many
* pixels of conjunction are needed.
*
* It has no effect if no `arrowElement` is provided.
* @memberof modifiers
* @inner
*/
arrow: {
/** @prop {number} order=500 - Index used to define the order of execution */
order: 500,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: arrow,
/** @prop {String|HTMLElement} element='[x-arrow]' - Selector or node used as arrow */
element: '[x-arrow]'
},
/**
* Modifier used to flip the popper's placement when it starts to overlap its
* reference element.
*
* Requires the `preventOverflow` modifier before it in order to work.
*
* **NOTE:** this modifier will interrupt the current update cycle and will
* restart it if it detects the need to flip the placement.
* @memberof modifiers
* @inner
*/
flip: {
/** @prop {number} order=600 - Index used to define the order of execution */
order: 600,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: flip,
/**
* @prop {String|Array} behavior='flip'
* The behavior used to change the popper's placement. It can be one of
* `flip`, `clockwise`, `counterclockwise` or an array with a list of valid
* placements (with optional variations)
*/
behavior: 'flip',
/**
* @prop {number} padding=5
* The popper will flip if it hits the edges of the `boundariesElement`
*/
padding: 5,
/**
* @prop {String|HTMLElement} boundariesElement='viewport'
* The element which will define the boundaries of the popper position.
* The popper will never be placed outside of the defined boundaries
* (except if `keepTogether` is enabled)
*/
boundariesElement: 'viewport',
/**
* @prop {Boolean} flipVariations=false
* The popper will switch placement variation between `-start` and `-end` when
* the reference element overlaps its boundaries.
*
* The original placement should have a set variation.
*/
flipVariations: false,
/**
* @prop {Boolean} flipVariationsByContent=false
* The popper will switch placement variation between `-start` and `-end` when
* the popper element overlaps its reference boundaries.
*
* The original placement should have a set variation.
*/
flipVariationsByContent: false
},
/**
* Modifier used to make the popper flow toward the inner of the reference element.
* By default, when this modifier is disabled, the popper will be placed outside
* the reference element.
* @memberof modifiers
* @inner
*/
inner: {
/** @prop {number} order=700 - Index used to define the order of execution */
order: 700,
/** @prop {Boolean} enabled=false - Whether the modifier is enabled or not */
enabled: false,
/** @prop {ModifierFn} */
fn: inner
},
/**
* Modifier used to hide the popper when its reference element is outside of the
* popper boundaries. It will set a `x-out-of-boundaries` attribute which can
* be used to hide with a CSS selector the popper when its reference is
* out of boundaries.
*
* Requires the `preventOverflow` modifier before it in order to work.
* @memberof modifiers
* @inner
*/
hide: {
/** @prop {number} order=800 - Index used to define the order of execution */
order: 800,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: hide
},
/**
* Computes the style that will be applied to the popper element to gets
* properly positioned.
*
* Note that this modifier will not touch the DOM, it just prepares the styles
* so that `applyStyle` modifier can apply it. This separation is useful
* in case you need to replace `applyStyle` with a custom implementation.
*
* This modifier has `850` as `order` value to maintain backward compatibility
* with previous versions of Popper.js. Expect the modifiers ordering method
* to change in future major versions of the library.
*
* @memberof modifiers
* @inner
*/
computeStyle: {
/** @prop {number} order=850 - Index used to define the order of execution */
order: 850,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: computeStyle,
/**
* @prop {Boolean} gpuAcceleration=true
* If true, it uses the CSS 3D transformation to position the popper.
* Otherwise, it will use the `top` and `left` properties
*/
gpuAcceleration: true,
/**
* @prop {string} [x='bottom']
* Where to anchor the X axis (`bottom` or `top`). AKA X offset origin.
* Change this if your popper should grow in a direction different from `bottom`
*/
x: 'bottom',
/**
* @prop {string} [x='left']
* Where to anchor the Y axis (`left` or `right`). AKA Y offset origin.
* Change this if your popper should grow in a direction different from `right`
*/
y: 'right'
},
/**
* Applies the computed styles to the popper element.
*
* All the DOM manipulations are limited to this modifier. This is useful in case
* you want to integrate Popper.js inside a framework or view library and you
* want to delegate all the DOM manipulations to it.
*
* Note that if you disable this modifier, you must make sure the popper element
* has its position set to `absolute` before Popper.js can do its work!
*
* Just disable this modifier and define your own to achieve the desired effect.
*
* @memberof modifiers
* @inner
*/
applyStyle: {
/** @prop {number} order=900 - Index used to define the order of execution */
order: 900,
/** @prop {Boolean} enabled=true - Whether the modifier is enabled or not */
enabled: true,
/** @prop {ModifierFn} */
fn: applyStyle,
/** @prop {Function} */
onLoad: applyStyleOnLoad,
/**
* @deprecated since version 1.10.0, the property moved to `computeStyle` modifier
* @prop {Boolean} gpuAcceleration=true
* If true, it uses the CSS 3D transformation to position the popper.
* Otherwise, it will use the `top` and `left` properties
*/
gpuAcceleration: undefined
}
};
/**
* The `dataObject` is an object containing all the information used by Popper.js.
* This object is passed to modifiers and to the `onCreate` and `onUpdate` callbacks.
* @name dataObject
* @property {Object} data.instance The Popper.js instance
* @property {String} data.placement Placement applied to popper
* @property {String} data.originalPlacement Placement originally defined on init
* @property {Boolean} data.flipped True if popper has been flipped by flip modifier
* @property {Boolean} data.hide True if the reference element is out of boundaries, useful to know when to hide the popper
* @property {HTMLElement} data.arrowElement Node used as arrow by arrow modifier
* @property {Object} data.styles Any CSS property defined here will be applied to the popper. It expects the JavaScript nomenclature (eg. `marginBottom`)
* @property {Object} data.arrowStyles Any CSS property defined here will be applied to the popper arrow. It expects the JavaScript nomenclature (eg. `marginBottom`)
* @property {Object} data.boundaries Offsets of the popper boundaries
* @property {Object} data.offsets The measurements of popper, reference and arrow elements
* @property {Object} data.offsets.popper `top`, `left`, `width`, `height` values
* @property {Object} data.offsets.reference `top`, `left`, `width`, `height` values
* @property {Object} data.offsets.arrow] `top` and `left` offsets, only one of them will be different from 0
*/
/**
* Default options provided to Popper.js constructor.<br />
* These can be overridden using the `options` argument of Popper.js.<br />
* To override an option, simply pass an object with the same
* structure of the `options` object, as the 3rd argument. For example:
* ```
* new Popper(ref, pop, {
* modifiers: {
* preventOverflow: { enabled: false }
* }
* })
* ```
* @type {Object}
* @static
* @memberof Popper
*/
var Defaults = {
/**
* Popper's placement.
* @prop {Popper.placements} placement='bottom'
*/
placement: 'bottom',
/**
* Set this to true if you want popper to position it self in 'fixed' mode
* @prop {Boolean} positionFixed=false
*/
positionFixed: false,
/**
* Whether events (resize, scroll) are initially enabled.
* @prop {Boolean} eventsEnabled=true
*/
eventsEnabled: true,
/**
* Set to true if you want to automatically remove the popper when
* you call the `destroy` method.
* @prop {Boolean} removeOnDestroy=false
*/
removeOnDestroy: false,
/**
* Callback called when the popper is created.<br />
* By default, it is set to no-op.<br />
* Access Popper.js instance with `data.instance`.
* @prop {onCreate}
*/
onCreate: function onCreate() {},
/**
* Callback called when the popper is updated. This callback is not called
* on the initialization/creation of the popper, but only on subsequent
* updates.<br />
* By default, it is set to no-op.<br />
* Access Popper.js instance with `data.instance`.
* @prop {onUpdate}
*/
onUpdate: function onUpdate() {},
/**
* List of modifiers used to modify the offsets before they are applied to the popper.
* They provide most of the functionalities of Popper.js.
* @prop {modifiers}
*/
modifiers: modifiers
};
/**
* @callback onCreate
* @param {dataObject} data
*/
/**
* @callback onUpdate
* @param {dataObject} data
*/
// Utils
// Methods
var Popper = function () {
/**
* Creates a new Popper.js instance.
* @class Popper
* @param {Element|referenceObject} reference - The reference element used to position the popper
* @param {Element} popper - The HTML / XML element used as the popper
* @param {Object} options - Your custom options to override the ones defined in [Defaults](#defaults)
* @return {Object} instance - The generated Popper.js instance
*/
function Popper(reference, popper) {
var _this = this;
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
classCallCheck(this, Popper);
this.scheduleUpdate = function () {
return requestAnimationFrame(_this.update);
};
// make update() debounced, so that it only runs at most once-per-tick
this.update = debounce(this.update.bind(this));
// with {} we create a new object with the options inside it
this.options = _extends({}, Popper.Defaults, options);
// init state
this.state = {
isDestroyed: false,
isCreated: false,
scrollParents: []
};
// get reference and popper elements (allow jQuery wrappers)
this.reference = reference && reference.jquery ? reference[0] : reference;
this.popper = popper && popper.jquery ? popper[0] : popper;
// Deep merge modifiers options
this.options.modifiers = {};
Object.keys(_extends({}, Popper.Defaults.modifiers, options.modifiers)).forEach(function (name) {
_this.options.modifiers[name] = _extends({}, Popper.Defaults.modifiers[name] || {}, options.modifiers ? options.modifiers[name] : {});
});
// Refactoring modifiers' list (Object => Array)
this.modifiers = Object.keys(this.options.modifiers).map(function (name) {
return _extends({
name: name
}, _this.options.modifiers[name]);
})
// sort the modifiers by order
.sort(function (a, b) {
return a.order - b.order;
});
// modifiers have the ability to execute arbitrary code when Popper.js get inited
// such code is executed in the same order of its modifier
// they could add new properties to their options configuration
// BE AWARE: don't add options to `options.modifiers.name` but to `modifierOptions`!
this.modifiers.forEach(function (modifierOptions) {
if (modifierOptions.enabled && isFunction(modifierOptions.onLoad)) {
modifierOptions.onLoad(_this.reference, _this.popper, _this.options, modifierOptions, _this.state);
}
});
// fire the first update to position the popper in the right place
this.update();
var eventsEnabled = this.options.eventsEnabled;
if (eventsEnabled) {
// setup event listeners, they will take care of update the position in specific situations
this.enableEventListeners();
}
this.state.eventsEnabled = eventsEnabled;
}
// We can't use class properties because they don't get listed in the
// class prototype and break stuff like Sinon stubs
createClass(Popper, [{
key: 'update',
value: function update$$1() {
return update.call(this);
}
}, {
key: 'destroy',
value: function destroy$$1() {
return destroy.call(this);
}
}, {
key: 'enableEventListeners',
value: function enableEventListeners$$1() {
return enableEventListeners.call(this);
}
}, {
key: 'disableEventListeners',
value: function disableEventListeners$$1() {
return disableEventListeners.call(this);
}
/**
* Schedules an update. It will run on the next UI update available.
* @method scheduleUpdate
* @memberof Popper
*/
/**
* Collection of utilities useful when writing custom modifiers.
* Starting from version 1.7, this method is available only if you
* include `popper-utils.js` before `popper.js`.
*
* **DEPRECATION**: This way to access PopperUtils is deprecated
* and will be removed in v2! Use the PopperUtils module directly instead.
* Due to the high instability of the methods contained in Utils, we can't
* guarantee them to follow semver. Use them at your own risk!
* @static
* @private
* @type {Object}
* @deprecated since version 1.8
* @member Utils
* @memberof Popper
*/
}]);
return Popper;
}();
/**
* The `referenceObject` is an object that provides an interface compatible with Popper.js
* and lets you use it as replacement of a real DOM node.<br />
* You can use this method to position a popper relatively to a set of coordinates
* in case you don't have a DOM node to use as reference.
*
* ```
* new Popper(referenceObject, popperNode);
* ```
*
* NB: This feature isn't supported in Internet Explorer 10.
* @name referenceObject
* @property {Function} data.getBoundingClientRect
* A function that returns a set of coordinates compatible with the native `getBoundingClientRect` method.
* @property {number} data.clientWidth
* An ES6 getter that will return the width of the virtual reference element.
* @property {number} data.clientHeight
* An ES6 getter that will return the height of the virtual reference element.
*/
Popper.Utils = (typeof window !== 'undefined' ? window : global).PopperUtils;
Popper.placements = placements;
Popper.Defaults = Defaults;
return Popper;
})));
//# sourceMappingURL=popper.js.map
/**!
* tippy.js v5.2.1
* (c) 2017-2020 atomiks
* MIT License
*/
var tippy = (function (Popper) {
'use strict';
Popper = Popper && Popper.hasOwnProperty('default') ? Popper['default'] : Popper;
var css = ".tippy-tooltip[data-animation=fade][data-state=hidden]{opacity:0}.tippy-iOS{cursor:pointer!important;-webkit-tap-highlight-color:transparent}.tippy-popper{pointer-events:none;max-width:calc(100vw - 10px);transition-timing-function:cubic-bezier(.165,.84,.44,1);transition-property:transform}.tippy-tooltip{position:relative;color:#fff;border-radius:4px;font-size:14px;line-height:1.4;background-color:#333;transition-property:visibility,opacity,transform;outline:0}.tippy-tooltip[data-placement^=top]>.tippy-arrow{border-width:8px 8px 0;border-top-color:#333;margin:0 3px;transform-origin:50% 0;bottom:-7px}.tippy-tooltip[data-placement^=bottom]>.tippy-arrow{border-width:0 8px 8px;border-bottom-color:#333;margin:0 3px;transform-origin:50% 7px;top:-7px}.tippy-tooltip[data-placement^=left]>.tippy-arrow{border-width:8px 0 8px 8px;border-left-color:#333;margin:3px 0;transform-origin:0 50%;right:-7px}.tippy-tooltip[data-placement^=right]>.tippy-arrow{border-width:8px 8px 8px 0;border-right-color:#333;margin:3px 0;transform-origin:7px 50%;left:-7px}.tippy-tooltip[data-interactive][data-state=visible]{pointer-events:auto}.tippy-tooltip[data-inertia][data-state=visible]{transition-timing-function:cubic-bezier(.54,1.5,.38,1.11)}.tippy-arrow{position:absolute;border-color:transparent;border-style:solid}.tippy-content{padding:5px 9px}";
/**
* Injects a string of CSS styles to a style node in <head>
*/
function injectCSS(css) {
var style = document.createElement('style');
style.textContent = css;
style.setAttribute('data-tippy-stylesheet', '');
var head = document.head;
var firstStyleOrLinkTag = document.querySelector('head>style,head>link');
if (firstStyleOrLinkTag) {
head.insertBefore(style, firstStyleOrLinkTag);
} else {
head.appendChild(style);
}
}
function _extends() {
_extends = Object.assign || function (target) {
for (var i = 1; i < arguments.length; i++) {
var source = arguments[i];
for (var key in source) {
if (Object.prototype.hasOwnProperty.call(source, key)) {
target[key] = source[key];
}
}
}
return target;
};
return _extends.apply(this, arguments);
}
var PASSIVE = {
passive: true
};
var ROUND_ARROW = '<svg viewBox="0 0 18 7" xmlns="http://www.w3.org/2000/svg"><path d="M0 7s2.021-.015 5.253-4.218C6.584 1.051 7.797.007 9 0c1.203-.007 2.416 1.035 3.761 2.782C16.012 7.005 18 7 18 7H0z"/></svg>';
var IOS_CLASS = "tippy-iOS";
var POPPER_CLASS = "tippy-popper";
var TOOLTIP_CLASS = "tippy-tooltip";
var CONTENT_CLASS = "tippy-content";
var BACKDROP_CLASS = "tippy-backdrop";
var ARROW_CLASS = "tippy-arrow";
var SVG_ARROW_CLASS = "tippy-svg-arrow";
var POPPER_SELECTOR = "." + POPPER_CLASS;
var TOOLTIP_SELECTOR = "." + TOOLTIP_CLASS;
var CONTENT_SELECTOR = "." + CONTENT_CLASS;
var ARROW_SELECTOR = "." + ARROW_CLASS;
var SVG_ARROW_SELECTOR = "." + SVG_ARROW_CLASS;
/**
* Triggers reflow
*/
function reflow(element) {
void element.offsetHeight;
}
/**
* Sets the innerHTML of an element
*/
function setInnerHTML(element, html) {
element[innerHTML()] = html;
}
/**
* Determines if the value is a reference element
*/
function isReferenceElement(value) {
return !!(value && value._tippy && value._tippy.reference === value);
}
/**
* Safe .hasOwnProperty check, for prototype-less objects
*/
function hasOwnProperty(obj, key) {
return {}.hasOwnProperty.call(obj, key);
}
/**
* Returns an array of elements based on the value
*/
function getArrayOfElements(value) {
if (isElement(value)) {
return [value];
}
if (isNodeList(value)) {
return arrayFrom(value);
}
if (Array.isArray(value)) {
return value;
}
return arrayFrom(document.querySelectorAll(value));
}
/**
* Returns a value at a given index depending on if it's an array or number
*/
function getValueAtIndexOrReturn(value, index, defaultValue) {
if (Array.isArray(value)) {
var v = value[index];
return v == null ? Array.isArray(defaultValue) ? defaultValue[index] : defaultValue : v;
}
return value;
}
/**
* Prevents errors from being thrown while accessing nested modifier objects
* in `popperOptions`
*/
function getModifier(obj, key) {
return obj && obj.modifiers && obj.modifiers[key];
}
/**
* Determines if the value is of type
*/
function isType(value, type) {
var str = {}.toString.call(value);
return str.indexOf('[object') === 0 && str.indexOf(type + "]") > -1;
}
/**
* Determines if the value is of type Element
*/
function isElement(value) {
return isType(value, 'Element');
}
/**
* Determines if the value is of type NodeList
*/
function isNodeList(value) {
return isType(value, 'NodeList');
}
/**
* Determines if the value is of type MouseEvent
*/
function isMouseEvent(value) {
return isType(value, 'MouseEvent');
}
/**
* Firefox extensions don't allow setting .innerHTML directly, this will trick
* it
*/
function innerHTML() {
return 'innerHTML';
}
/**
* Evaluates a function if one, or returns the value
*/
function invokeWithArgsOrReturn(value, args) {
return typeof value === 'function' ? value.apply(void 0, args) : value;
}
/**
* Sets a popperInstance modifier's property to a value
*/
function setModifierValue(modifiers, name, property, value) {
modifiers.filter(function (m) {
return m.name === name;
})[0][property] = value;
}
/**
* Returns a new `div` element
*/
function div() {
return document.createElement('div');
}
/**
* Applies a transition duration to a list of elements
*/
function setTransitionDuration(els, value) {
els.forEach(function (el) {
if (el) {
el.style.transitionDuration = value + "ms";
}
});
}
/**
* Sets the visibility state to elements so they can begin to transition
*/
function setVisibilityState(els, state) {
els.forEach(function (el) {
if (el) {
el.setAttribute('data-state', state);
}
});
}
/**
* Debounce utility. To avoid bloating bundle size, we're only passing 1
* argument here, a more generic function would pass all arguments. Only
* `onMouseMove` uses this which takes the event object for now.
*/
function debounce(fn, ms) {
// Avoid wrapping in `setTimeout` if ms is 0 anyway
if (ms === 0) {
return fn;
}
var timeout;
return function (arg) {
clearTimeout(timeout);
timeout = setTimeout(function () {
fn(arg);
}, ms);
};
}
/**
* Preserves the original function invocation when another function replaces it
*/
function preserveInvocation(originalFn, currentFn, args) {
if (originalFn && originalFn !== currentFn) {
originalFn.apply(void 0, args);
}
}
/**
* Deletes properties from an object (pure)
*/
function removeProperties(obj, keys) {
var clone = _extends({}, obj);
keys.forEach(function (key) {
delete clone[key];
});
return clone;
}
/**
* Ponyfill for Array.from - converts iterable values to an array
*/
function arrayFrom(value) {
return [].slice.call(value);
}
/**
* Works like Element.prototype.closest, but uses a callback instead
*/
function closestCallback(element, callback) {
while (element) {
if (callback(element)) {
return element;
}
element = element.parentElement;
}
return null;
}
/**
* Determines if an array or string includes a string
*/
function includes(a, b) {
return a.indexOf(b) > -1;
}
/**
* Creates an array from string of values separated by whitespace
*/
function splitBySpaces(value) {
return value.split(/\s+/).filter(Boolean);
}
/**
* Returns the `nextValue` if `nextValue` is not `undefined`, otherwise returns
* `currentValue`
*/
function useIfDefined(nextValue, currentValue) {
return nextValue !== undefined ? nextValue : currentValue;
}
/**
* Converts a value that's an array or single value to an array
*/
function normalizeToArray(value) {
return [].concat(value);
}
/**
* Returns the ownerDocument of the first available element, otherwise global
* document
*/
function getOwnerDocument(elementOrElements) {
var _normalizeToArray = normalizeToArray(elementOrElements),
element = _normalizeToArray[0];
return element ? element.ownerDocument || document : document;
}
/**
* Adds item to array if array does not contain it
*/
function pushIfUnique(arr, value) {
if (arr.indexOf(value) === -1) {
arr.push(value);
}
}
/**
* Adds `px` if value is a number, or returns it directly
*/
function appendPxIfNumber(value) {
return typeof value === 'number' ? value + "px" : value;
}
/**
* Filters out duplicate elements in an array
*/
function unique(arr) {
return arr.filter(function (item, index) {
return arr.indexOf(item) === index;
});
}
/**
* Returns number from number or CSS units string
*/
function getNumber(value) {
return typeof value === 'number' ? value : parseFloat(value);
}
/**
* Gets number or CSS string units in pixels (e.g. `1rem` -> 16)
*/
function getUnitsInPx(doc, value) {
var isRem = typeof value === 'string' && includes(value, 'rem');
var html = doc.documentElement;
var rootFontSize = 16;
if (html && isRem) {
return parseFloat(getComputedStyle(html).fontSize || String(rootFontSize)) * getNumber(value);
}
return getNumber(value);
}
/**
* Adds the `distancePx` value to the placement of a Popper.Padding object
*/
function getComputedPadding(basePlacement, padding, distancePx) {
if (padding === void 0) {
padding = 5;
}
var freshPaddingObject = {
top: 0,
right: 0,
bottom: 0,
left: 0
};
var keys = Object.keys(freshPaddingObject);
return keys.reduce(function (obj, key) {
obj[key] = typeof padding === 'number' ? padding : padding[key];
if (basePlacement === key) {
obj[key] = typeof padding === 'number' ? padding + distancePx : padding[basePlacement] + distancePx;
}
return obj;
}, freshPaddingObject);
}
var currentInput = {
isTouch: false
};
var lastMouseMoveTime = 0;
/**
* When a `touchstart` event is fired, it's assumed the user is using touch
* input. We'll bind a `mousemove` event listener to listen for mouse input in
* the future. This way, the `isTouch` property is fully dynamic and will handle
* hybrid devices that use a mix of touch + mouse input.
*/
function onDocumentTouchStart() {
if (currentInput.isTouch) {
return;
}
currentInput.isTouch = true;
if (window.performance) {
document.addEventListener('mousemove', onDocumentMouseMove);
}
}
/**
* When two `mousemove` event are fired consecutively within 20ms, it's assumed
* the user is using mouse input again. `mousemove` can fire on touch devices as
* well, but very rarely that quickly.
*/
function onDocumentMouseMove() {
var now = performance.now();
if (now - lastMouseMoveTime < 20) {
currentInput.isTouch = false;
document.removeEventListener('mousemove', onDocumentMouseMove);
}
lastMouseMoveTime = now;
}
/**
* When an element is in focus and has a tippy, leaving the tab/window and
* returning causes it to show again. For mouse users this is unexpected, but
* for keyboard use it makes sense.
* TODO: find a better technique to solve this problem
*/
function onWindowBlur() {
var activeElement = document.activeElement;
if (isReferenceElement(activeElement)) {
var instance = activeElement._tippy;
if (activeElement.blur && !instance.state.isVisible) {
activeElement.blur();
}
}
}
/**
* Adds the needed global event listeners
*/
function bindGlobalEventListeners() {
document.addEventListener('touchstart', onDocumentTouchStart, _extends({}, PASSIVE, {
capture: true
}));
window.addEventListener('blur', onWindowBlur);
}
var isBrowser = typeof window !== 'undefined' && typeof document !== 'undefined';
var ua = isBrowser ? navigator.userAgent : '';
var isIE = /MSIE |Trident\//.test(ua);
var isIOS = isBrowser && /iPhone|iPad|iPod/.test(navigator.platform);
function updateIOSClass(isAdd) {
var shouldAdd = isAdd && isIOS && currentInput.isTouch;
document.body.classList[shouldAdd ? 'add' : 'remove'](IOS_CLASS);
}
var version = "5.2.1";
function createMemoryLeakWarning(method) {
var txt = method === 'destroy' ? 'n already-' : ' ';
return "\n " + method + "() was called on a" + txt + "destroyed instance. This is a no-op but\n indicates a potential memory leak.\n ";
}
function clean(value) {
var spacesAndTabs = /[ \t]{2,}/g;
var lineStartWithSpaces = /^[ \t]*/gm;
return value.replace(spacesAndTabs, ' ').replace(lineStartWithSpaces, '').trim();
}
function getDevMessage(message) {
return clean("\n %ctippy.js\n\n %c" + clean(message) + "\n\n %c\uD83D\uDC77\u200D This is a development-only message. It will be removed in production.\n ");
}
function getFormattedMessage(message) {
return [getDevMessage(message), // title
'color: #00C584; font-size: 1.3em; font-weight: bold;', // message
'line-height: 1.5', // footer
'color: #a6a095;'];
}
/**
* Helpful wrapper around `console.warn()`.
* TODO: Should we use a cache so it only warns a single time and not spam the
* console? (Need to consider hot reloading and invalidation though). Chrome
* already batches warnings as well.
*/
function warnWhen(condition, message) {
if (condition) {
var _console;
(_console = console).warn.apply(_console, getFormattedMessage(message));
}
}
/**
* Helpful wrapper around `console.error()`
*/
function errorWhen(condition, message) {
if (condition) {
var _console2;
(_console2 = console).error.apply(_console2, getFormattedMessage(message));
}
}
/**
* Validates the `targets` value passed to `tippy()`
*/
function validateTargets(targets) {
var didPassFalsyValue = !targets;
var didPassPlainObject = Object.prototype.toString.call(targets) === '[object Object]' && !targets.addEventListener;
errorWhen(didPassFalsyValue, ['tippy() was passed', '`' + String(targets) + '`', 'as its targets (first) argument. Valid types are: String, Element, Element[],', 'or NodeList.'].join(' '));
errorWhen(didPassPlainObject, ['tippy() was passed a plain object which is no longer supported as an argument.', 'See: https://atomiks.github.io/tippyjs/misc/#custom-position'].join(' '));
}
var pluginProps = {
animateFill: false,
followCursor: false,
inlinePositioning: false,
sticky: false
};
var defaultProps = _extends({
allowHTML: true,
animation: 'fade',
appendTo: function appendTo() {
return document.body;
},
aria: 'describedby',
arrow: true,
boundary: 'scrollParent',
content: '',
delay: 0,
distance: 10,
duration: [300, 250],
flip: true,
flipBehavior: 'flip',
flipOnUpdate: false,
hideOnClick: true,
ignoreAttributes: false,
inertia: false,
interactive: false,
interactiveBorder: 2,
interactiveDebounce: 0,
lazy: true,
maxWidth: 350,
multiple: false,
offset: 0,
onAfterUpdate: function onAfterUpdate() {},
onBeforeUpdate: function onBeforeUpdate() {},
onCreate: function onCreate() {},
onDestroy: function onDestroy() {},
onHidden: function onHidden() {},
onHide: function onHide() {},
onMount: function onMount() {},
onShow: function onShow() {},
onShown: function onShown() {},
onTrigger: function onTrigger() {},
onUntrigger: function onUntrigger() {},
placement: 'top',
plugins: [],
popperOptions: {},
role: 'tooltip',
showOnCreate: false,
theme: '',
touch: true,
trigger: 'mouseenter focus',
triggerTarget: null,
updateDuration: 0,
zIndex: 9999
}, pluginProps);
var defaultKeys = Object.keys(defaultProps);
/**
* If the setProps() method encounters one of these, the popperInstance must be
* recreated
*/
var POPPER_INSTANCE_DEPENDENCIES = ['arrow', 'boundary', 'distance', 'flip', 'flipBehavior', 'flipOnUpdate', 'offset', 'placement', 'popperOptions'];
/**
* Mutates the defaultProps object by setting the props specified
*/
var setDefaultProps = function setDefaultProps(partialProps) {
{
validateProps(partialProps, []);
}
var keys = Object.keys(partialProps);
keys.forEach(function (key) {
defaultProps[key] = partialProps[key];
});
};
/**
* Returns an extended props object including plugin props
*/
function getExtendedPassedProps(passedProps) {
var plugins = passedProps.plugins || [];
var pluginProps = plugins.reduce(function (acc, plugin) {
var name = plugin.name,
defaultValue = plugin.defaultValue;
if (name) {
acc[name] = passedProps[name] !== undefined ? passedProps[name] : defaultValue;
}
return acc;
}, {});
return _extends({}, passedProps, {}, pluginProps);
}
/**
* Returns an object of optional props from data-tippy-* attributes
*/
function getDataAttributeProps(reference, plugins) {
var propKeys = plugins ? Object.keys(getExtendedPassedProps(_extends({}, defaultProps, {
plugins: plugins
}))) : defaultKeys;
var props = propKeys.reduce(function (acc, key) {
var valueAsString = (reference.getAttribute("data-tippy-" + key) || '').trim();
if (!valueAsString) {
return acc;
}
if (key === 'content') {
acc[key] = valueAsString;
} else {
try {
acc[key] = JSON.parse(valueAsString);
} catch (e) {
acc[key] = valueAsString;
}
}
return acc;
}, {});
return props;
}
/**
* Evaluates the props object by merging data attributes and disabling
* conflicting props where necessary
*/
function evaluateProps(reference, props) {
var out = _extends({}, props, {
content: invokeWithArgsOrReturn(props.content, [reference])
}, props.ignoreAttributes ? {} : getDataAttributeProps(reference, props.plugins));
if (out.interactive) {
out.aria = null;
}
return out;
}
/**
* Validates props with the valid `defaultProps` object
*/
function validateProps(partialProps, plugins) {
if (partialProps === void 0) {
partialProps = {};
}
if (plugins === void 0) {
plugins = [];
}
var keys = Object.keys(partialProps);
keys.forEach(function (prop) {
var value = partialProps[prop];
var didSpecifyPlacementInPopperOptions = prop === 'popperOptions' && value !== null && typeof value === 'object' && hasOwnProperty(value, 'placement');
var nonPluginProps = removeProperties(defaultProps, ['animateFill', 'followCursor', 'inlinePositioning', 'sticky']); // These props have custom warnings
var customWarningProps = ['a11y', 'arrowType', 'showOnInit', 'size', 'target', 'touchHold'];
var didPassUnknownProp = !hasOwnProperty(nonPluginProps, prop) && !includes(customWarningProps, prop); // Check if the prop exists in `plugins`
if (didPassUnknownProp) {
didPassUnknownProp = plugins.filter(function (plugin) {
return plugin.name === prop;
}).length === 0;
}
warnWhen(prop === 'target', ['The `target` prop was removed in v5 and replaced with the delegate() addon', 'in order to conserve bundle size.', 'See: https://atomiks.github.io/tippyjs/addons/#event-delegation'].join(' '));
warnWhen(prop === 'a11y', ['The `a11y` prop was removed in v5. Make sure the element you are giving a', 'tippy to is natively focusable, such as <button> or <input>, not <div>', 'or <span>.'].join(' '));
warnWhen(prop === 'showOnInit', 'The `showOnInit` prop was renamed to `showOnCreate` in v5.');
warnWhen(prop === 'arrowType', ['The `arrowType` prop was removed in v5 in favor of overloading the `arrow`', 'prop.', '\n\n', '"round" string was replaced with importing the string from the package.', '\n\n', "* import {roundArrow} from 'tippy.js'; (ESM version)\n", '* const {roundArrow} = tippy; (IIFE CDN version)', '\n\n', 'Before: {arrow: true, arrowType: "round"}\n', 'After: {arrow: roundArrow}`'].join(' '));
warnWhen(prop === 'touchHold', ['The `touchHold` prop was removed in v5 in favor of overloading the `touch`', 'prop.', '\n\n', 'Before: {touchHold: true}\n', 'After: {touch: "hold"}'].join(' '));
warnWhen(prop === 'size', ['The `size` prop was removed in v5. Instead, use a theme that specifies', 'CSS padding and font-size properties.'].join(' '));
warnWhen(prop === 'theme' && value === 'google', 'The included theme "google" was renamed to "material" in v5.');
warnWhen(didSpecifyPlacementInPopperOptions, ['Specifying placement in `popperOptions` is not supported. Use the base-level', '`placement` prop instead.', '\n\n', 'Before: {popperOptions: {placement: "bottom"}}\n', 'After: {placement: "bottom"}'].join(' '));
warnWhen(didPassUnknownProp, ["`" + prop + "`", "is not a valid prop. You may have spelled it incorrectly, or if it's a", 'plugin, forgot to pass it in an array as props.plugins.', '\n\n', 'In v5, the following props were turned into plugins:', '\n\n', '* animateFill\n', '* followCursor\n', '* sticky', '\n\n', 'All props: https://atomiks.github.io/tippyjs/all-props/\n', 'Plugins: https://atomiks.github.io/tippyjs/plugins/'].join(' '));
});
}
/**
* Returns the popper's placement, ignoring shifting (top-start, etc)
*/
function getBasePlacement(placement) {
return placement.split('-')[0];
}
/**
* Adds `data-inertia` attribute
*/
function addInertia(tooltip) {
tooltip.setAttribute('data-inertia', '');
}
/**
* Removes `data-inertia` attribute
*/
function removeInertia(tooltip) {
tooltip.removeAttribute('data-inertia');
}
/**
* Adds interactive-related attributes
*/
function addInteractive(tooltip) {
tooltip.setAttribute('data-interactive', '');
}
/**
* Removes interactive-related attributes
*/
function removeInteractive(tooltip) {
tooltip.removeAttribute('data-interactive');
}
/**
* Sets the content of a tooltip
*/
function setContent(contentEl, props) {
if (isElement(props.content)) {
setInnerHTML(contentEl, '');
contentEl.appendChild(props.content);
} else if (typeof props.content !== 'function') {
var key = props.allowHTML ? 'innerHTML' : 'textContent';
contentEl[key] = props.content;
}
}
/**
* Returns the child elements of a popper element
*/
function getChildren(popper) {
return {
tooltip: popper.querySelector(TOOLTIP_SELECTOR),
content: popper.querySelector(CONTENT_SELECTOR),
arrow: popper.querySelector(ARROW_SELECTOR) || popper.querySelector(SVG_ARROW_SELECTOR)
};
}
/**
* Creates an arrow element and returns it
*/
function createArrowElement(arrow) {
var arrowElement = div();
if (arrow === true) {
arrowElement.className = ARROW_CLASS;
} else {
arrowElement.className = SVG_ARROW_CLASS;
if (isElement(arrow)) {
arrowElement.appendChild(arrow);
} else {
setInnerHTML(arrowElement, arrow);
}
}
return arrowElement;
}
/**
* Constructs the popper element and returns it
*/
function createPopperElement(id, props) {
var popper = div();
popper.className = POPPER_CLASS;
popper.style.position = 'absolute';
popper.style.top = '0';
popper.style.left = '0';
var tooltip = div();
tooltip.className = TOOLTIP_CLASS;
tooltip.id = "tippy-" + id;
tooltip.setAttribute('data-state', 'hidden');
tooltip.setAttribute('tabindex', '-1');
updateTheme(tooltip, 'add', props.theme);
var content = div();
content.className = CONTENT_CLASS;
content.setAttribute('data-state', 'hidden');
if (props.interactive) {
addInteractive(tooltip);
}
if (props.arrow) {
tooltip.setAttribute('data-arrow', '');
tooltip.appendChild(createArrowElement(props.arrow));
}
if (props.inertia) {
addInertia(tooltip);
}
setContent(content, props);
tooltip.appendChild(content);
popper.appendChild(tooltip);
updatePopperElement(popper, props, props);
return popper;
}
/**
* Updates the popper element based on the new props
*/
function updatePopperElement(popper, prevProps, nextProps) {
var _getChildren = getChildren(popper),
tooltip = _getChildren.tooltip,
content = _getChildren.content,
arrow = _getChildren.arrow;
popper.style.zIndex = '' + nextProps.zIndex;
tooltip.setAttribute('data-animation', nextProps.animation);
tooltip.style.maxWidth = appendPxIfNumber(nextProps.maxWidth);
if (nextProps.role) {
tooltip.setAttribute('role', nextProps.role);
} else {
tooltip.removeAttribute('role');
}
if (prevProps.content !== nextProps.content) {
setContent(content, nextProps);
} // arrow
if (!prevProps.arrow && nextProps.arrow) {
// false to true
tooltip.appendChild(createArrowElement(nextProps.arrow));
tooltip.setAttribute('data-arrow', '');
} else if (prevProps.arrow && !nextProps.arrow) {
// true to false
tooltip.removeChild(arrow);
tooltip.removeAttribute('data-arrow');
} else if (prevProps.arrow !== nextProps.arrow) {
// true to 'round' or vice-versa
tooltip.removeChild(arrow);
tooltip.appendChild(createArrowElement(nextProps.arrow));
} // interactive
if (!prevProps.interactive && nextProps.interactive) {
addInteractive(tooltip);
} else if (prevProps.interactive && !nextProps.interactive) {
removeInteractive(tooltip);
} // inertia
if (!prevProps.inertia && nextProps.inertia) {
addInertia(tooltip);
} else if (prevProps.inertia && !nextProps.inertia) {
removeInertia(tooltip);
} // theme
if (prevProps.theme !== nextProps.theme) {
updateTheme(tooltip, 'remove', prevProps.theme);
updateTheme(tooltip, 'add', nextProps.theme);
}
}
/**
* Add/remove transitionend listener from tooltip
*/
function updateTransitionEndListener(tooltip, action, listener) {
['transitionend', 'webkitTransitionEnd'].forEach(function (event) {
tooltip[action + 'EventListener'](event, listener);
});
}
/**
* Adds/removes theme from tooltip's classList
*/
function updateTheme(tooltip, action, theme) {
splitBySpaces(theme).forEach(function (name) {
tooltip.classList[action](name + "-theme");
});
}
/**
* Determines if the mouse cursor is outside of the popper's interactive border
* region
*/
function isCursorOutsideInteractiveBorder(popperTreeData, event) {
var clientX = event.clientX,
clientY = event.clientY;
return popperTreeData.every(function (_ref) {
var popperRect = _ref.popperRect,
tooltipRect = _ref.tooltipRect,
interactiveBorder = _ref.interactiveBorder;
// Get min/max bounds of both the popper and tooltip rects due to
// `distance` offset
var mergedRect = {
top: Math.min(popperRect.top, tooltipRect.top),
right: Math.max(popperRect.right, tooltipRect.right),
bottom: Math.max(popperRect.bottom, tooltipRect.bottom),
left: Math.min(popperRect.left, tooltipRect.left)
};
var exceedsTop = mergedRect.top - clientY > interactiveBorder;
var exceedsBottom = clientY - mergedRect.bottom > interactiveBorder;
var exceedsLeft = mergedRect.left - clientX > interactiveBorder;
var exceedsRight = clientX - mergedRect.right > interactiveBorder;
return exceedsTop || exceedsBottom || exceedsLeft || exceedsRight;
});
}
var idCounter = 1;
var mouseMoveListeners = [];
/**
* Used by `hideAll()`
*/
var mountedInstances = [];
/**
* Creates and returns a Tippy object. We're using a closure pattern instead of
* a class so that the exposed object API is clean without private members
* prefixed with `_`.
*/
function createTippy(reference, passedProps) {
var props = evaluateProps(reference, _extends({}, defaultProps, {}, getExtendedPassedProps(passedProps))); // If the reference shouldn't have multiple tippys, return null early
if (!props.multiple && reference._tippy) {
return null;
}
/* ======================= 🔒 Private members 🔒 ======================= */
var showTimeout;
var hideTimeout;
var scheduleHideAnimationFrame;
var isBeingDestroyed = false;
var isVisibleFromClick = false;
var didHideDueToDocumentMouseDown = false;
var popperUpdates = 0;
var lastTriggerEvent;
var currentMountCallback;
var currentTransitionEndListener;
var listeners = [];
var debouncedOnMouseMove = debounce(onMouseMove, props.interactiveDebounce);
var currentTarget; // Support iframe contexts
// Static check that assumes any of the `triggerTarget` or `reference`
// nodes will never change documents, even when they are updated
var doc = getOwnerDocument(props.triggerTarget || reference);
/* ======================= 🔑 Public members 🔑 ======================= */
var id = idCounter++;
var popper = createPopperElement(id, props);
var popperChildren = getChildren(popper);
var popperInstance = null;
var plugins = unique(props.plugins); // These two elements are static
var tooltip = popperChildren.tooltip,
content = popperChildren.content;
var transitionableElements = [tooltip, content];
var state = {
// The current real placement (`data-placement` attribute)
currentPlacement: null,
// Is the instance currently enabled?
isEnabled: true,
// Is the tippy currently showing and not transitioning out?
isVisible: false,
// Has the instance been destroyed?
isDestroyed: false,
// Is the tippy currently mounted to the DOM?
isMounted: false,
// Has the tippy finished transitioning in?
isShown: false
};
var instance = {
// properties
id: id,
reference: reference,
popper: popper,
popperChildren: popperChildren,
popperInstance: popperInstance,
props: props,
state: state,
plugins: plugins,
// methods
clearDelayTimeouts: clearDelayTimeouts,
setProps: setProps,
setContent: setContent,
show: show,
hide: hide,
enable: enable,
disable: disable,
destroy: destroy
};
/* ==================== Initial instance mutations =================== */
reference._tippy = instance;
popper._tippy = instance;
var pluginsHooks = plugins.map(function (plugin) {
return plugin.fn(instance);
});
var hadAriaExpandedAttributeOnCreate = reference.hasAttribute('aria-expanded');
addListenersToTriggerTarget();
handleAriaExpandedAttribute();
if (!props.lazy) {
createPopperInstance();
}
invokeHook('onCreate', [instance]);
if (props.showOnCreate) {
scheduleShow();
} // Prevent a tippy with a delay from hiding if the cursor left then returned
// before it started hiding
popper.addEventListener('mouseenter', function () {
if (instance.props.interactive && instance.state.isVisible) {
instance.clearDelayTimeouts();
}
});
popper.addEventListener('mouseleave', function (event) {
if (instance.props.interactive && includes(instance.props.trigger, 'mouseenter')) {
debouncedOnMouseMove(event);
doc.addEventListener('mousemove', debouncedOnMouseMove);
}
});
return instance;
/* ======================= 🔒 Private methods 🔒 ======================= */
function getNormalizedTouchSettings() {
var touch = instance.props.touch;
return Array.isArray(touch) ? touch : [touch, 0];
}
function getIsCustomTouchBehavior() {
return getNormalizedTouchSettings()[0] === 'hold';
}
function getCurrentTarget() {
return currentTarget || reference;
}
function getDelay(isShow) {
// For touch or keyboard input, force `0` delay for UX reasons
// Also if the instance is mounted but not visible (transitioning out),
// ignore delay
if (instance.state.isMounted && !instance.state.isVisible || currentInput.isTouch || lastTriggerEvent && lastTriggerEvent.type === 'focus') {
return 0;
}
return getValueAtIndexOrReturn(instance.props.delay, isShow ? 0 : 1, defaultProps.delay);
}
function invokeHook(hook, args, shouldInvokePropsHook) {
if (shouldInvokePropsHook === void 0) {
shouldInvokePropsHook = true;
}
pluginsHooks.forEach(function (pluginHooks) {
if (hasOwnProperty(pluginHooks, hook)) {
// @ts-ignore
pluginHooks[hook].apply(pluginHooks, args);
}
});
if (shouldInvokePropsHook) {
var _instance$props;
// @ts-ignore
(_instance$props = instance.props)[hook].apply(_instance$props, args);
}
}
function handleAriaDescribedByAttribute() {
var aria = instance.props.aria;
if (!aria) {
return;
}
var attr = "aria-" + aria;
var id = tooltip.id;
var nodes = normalizeToArray(instance.props.triggerTarget || reference);
nodes.forEach(function (node) {
var currentValue = node.getAttribute(attr);
if (instance.state.isVisible) {
node.setAttribute(attr, currentValue ? currentValue + " " + id : id);
} else {
var nextValue = currentValue && currentValue.replace(id, '').trim();
if (nextValue) {
node.setAttribute(attr, nextValue);
} else {
node.removeAttribute(attr);
}
}
});
}
function handleAriaExpandedAttribute() {
// If the user has specified `aria-expanded` on their reference when the
// instance was created, we have to assume they're controlling it externally
// themselves
if (hadAriaExpandedAttributeOnCreate) {
return;
}
var nodes = normalizeToArray(instance.props.triggerTarget || reference);
nodes.forEach(function (node) {
if (instance.props.interactive) {
node.setAttribute('aria-expanded', instance.state.isVisible && node === getCurrentTarget() ? 'true' : 'false');
} else {
node.removeAttribute('aria-expanded');
}
});
}
function cleanupInteractiveMouseListeners() {
doc.body.removeEventListener('mouseleave', scheduleHide);
doc.removeEventListener('mousemove', debouncedOnMouseMove);
mouseMoveListeners = mouseMoveListeners.filter(function (listener) {
return listener !== debouncedOnMouseMove;
});
}
function onDocumentMouseDown(event) {
// Clicked on interactive popper
if (instance.props.interactive && popper.contains(event.target)) {
return;
} // Clicked on the event listeners target
if (getCurrentTarget().contains(event.target)) {
if (currentInput.isTouch) {
return;
}
if (instance.state.isVisible && includes(instance.props.trigger, 'click')) {
return;
}
}
if (instance.props.hideOnClick === true) {
isVisibleFromClick = false;
instance.clearDelayTimeouts();
instance.hide(); // `mousedown` event is fired right before `focus` if pressing the
// currentTarget. This lets a tippy with `focus` trigger know that it
// should not show
didHideDueToDocumentMouseDown = true;
setTimeout(function () {
didHideDueToDocumentMouseDown = false;
}); // The listener gets added in `scheduleShow()`, but this may be hiding it
// before it shows, and hide()'s early bail-out behavior can prevent it
// from being cleaned up
if (!instance.state.isMounted) {
removeDocumentMouseDownListener();
}
}
}
function addDocumentMouseDownListener() {
doc.addEventListener('mousedown', onDocumentMouseDown, true);
}
function removeDocumentMouseDownListener() {
doc.removeEventListener('mousedown', onDocumentMouseDown, true);
}
function onTransitionedOut(duration, callback) {
onTransitionEnd(duration, function () {
if (!instance.state.isVisible && popper.parentNode && popper.parentNode.contains(popper)) {
callback();
}
});
}
function onTransitionedIn(duration, callback) {
onTransitionEnd(duration, callback);
}
function onTransitionEnd(duration, callback) {
function listener(event) {
if (event.target === tooltip) {
updateTransitionEndListener(tooltip, 'remove', listener);
callback();
}
} // Make callback synchronous if duration is 0
// `transitionend` won't fire otherwise
if (duration === 0) {
return callback();
}
updateTransitionEndListener(tooltip, 'remove', currentTransitionEndListener);
updateTransitionEndListener(tooltip, 'add', listener);
currentTransitionEndListener = listener;
}
function on(eventType, handler, options) {
if (options === void 0) {
options = false;
}
var nodes = normalizeToArray(instance.props.triggerTarget || reference);
nodes.forEach(function (node) {
node.addEventListener(eventType, handler, options);
listeners.push({
node: node,
eventType: eventType,
handler: handler,
options: options
});
});
}
function addListenersToTriggerTarget() {
if (getIsCustomTouchBehavior()) {
on('touchstart', onTrigger, PASSIVE);
on('touchend', onMouseLeave, PASSIVE);
}
splitBySpaces(instance.props.trigger).forEach(function (eventType) {
if (eventType === 'manual') {
return;
}
on(eventType, onTrigger);
switch (eventType) {
case 'mouseenter':
on('mouseleave', onMouseLeave);
break;
case 'focus':
on(isIE ? 'focusout' : 'blur', onBlurOrFocusOut);
break;
case 'focusin':
on('focusout', onBlurOrFocusOut);
break;
}
});
}
function removeListenersFromTriggerTarget() {
listeners.forEach(function (_ref) {
var node = _ref.node,
eventType = _ref.eventType,
handler = _ref.handler,
options = _ref.options;
node.removeEventListener(eventType, handler, options);
});
listeners = [];
}
function onTrigger(event) {
var shouldScheduleClickHide = false;
if (!instance.state.isEnabled || isEventListenerStopped(event) || didHideDueToDocumentMouseDown) {
return;
}
lastTriggerEvent = event;
currentTarget = event.currentTarget;
handleAriaExpandedAttribute();
if (!instance.state.isVisible && isMouseEvent(event)) {
// If scrolling, `mouseenter` events can be fired if the cursor lands
// over a new target, but `mousemove` events don't get fired. This
// causes interactive tooltips to get stuck open until the cursor is
// moved
mouseMoveListeners.forEach(function (listener) {
return listener(event);
});
} // Toggle show/hide when clicking click-triggered tooltips
if (event.type === 'click' && (!includes(instance.props.trigger, 'mouseenter') || isVisibleFromClick) && instance.props.hideOnClick !== false && instance.state.isVisible) {
shouldScheduleClickHide = true;
} else {
var _getNormalizedTouchSe = getNormalizedTouchSettings(),
value = _getNormalizedTouchSe[0],
duration = _getNormalizedTouchSe[1];
if (currentInput.isTouch && value === 'hold' && duration) {
// We can hijack the show timeout here, it will be cleared by
// `scheduleHide()` when necessary
showTimeout = setTimeout(function () {
scheduleShow(event);
}, duration);
} else {
scheduleShow(event);
}
}
if (event.type === 'click') {
isVisibleFromClick = !shouldScheduleClickHide;
}
if (shouldScheduleClickHide) {
scheduleHide(event);
}
}
function onMouseMove(event) {
var isCursorOverReferenceOrPopper = closestCallback(event.target, function (el) {
return el === reference || el === popper;
});
if (event.type === 'mousemove' && isCursorOverReferenceOrPopper) {
return;
}
var popperTreeData = arrayFrom(popper.querySelectorAll(POPPER_SELECTOR)).concat(popper).map(function (popper) {
var instance = popper._tippy;
var tooltip = instance.popperChildren.tooltip;
var interactiveBorder = instance.props.interactiveBorder;
return {
popperRect: popper.getBoundingClientRect(),
tooltipRect: tooltip.getBoundingClientRect(),
interactiveBorder: interactiveBorder
};
});
if (isCursorOutsideInteractiveBorder(popperTreeData, event)) {
cleanupInteractiveMouseListeners();
scheduleHide(event);
}
}
function onMouseLeave(event) {
if (isEventListenerStopped(event)) {
return;
}
if (includes(instance.props.trigger, 'click') && isVisibleFromClick) {
return;
}
if (instance.props.interactive) {
doc.body.addEventListener('mouseleave', scheduleHide);
doc.addEventListener('mousemove', debouncedOnMouseMove);
pushIfUnique(mouseMoveListeners, debouncedOnMouseMove);
debouncedOnMouseMove(event);
return;
}
scheduleHide(event);
}
function onBlurOrFocusOut(event) {
if (!includes(instance.props.trigger, 'focusin') && event.target !== getCurrentTarget()) {
return;
} // If focus was moved to within the popper
if (instance.props.interactive && event.relatedTarget && popper.contains(event.relatedTarget)) {
return;
}
scheduleHide(event);
}
function isEventListenerStopped(event) {
var supportsTouch = 'ontouchstart' in window;
var isTouchEvent = includes(event.type, 'touch');
var isCustomTouch = getIsCustomTouchBehavior();
return supportsTouch && currentInput.isTouch && isCustomTouch && !isTouchEvent || currentInput.isTouch && !isCustomTouch && isTouchEvent;
}
function createPopperInstance() {
var popperOptions = instance.props.popperOptions;
var arrow = instance.popperChildren.arrow;
var flipModifier = getModifier(popperOptions, 'flip');
var preventOverflowModifier = getModifier(popperOptions, 'preventOverflow');
var distancePx;
function applyMutations(data) {
var prevPlacement = instance.state.currentPlacement;
instance.state.currentPlacement = data.placement;
if (instance.props.flip && !instance.props.flipOnUpdate) {
if (data.flipped) {
instance.popperInstance.options.placement = data.placement;
}
setModifierValue(instance.popperInstance.modifiers, 'flip', 'enabled', false);
}
tooltip.setAttribute('data-placement', data.placement);
if (data.attributes['x-out-of-boundaries'] !== false) {
tooltip.setAttribute('data-out-of-boundaries', '');
} else {
tooltip.removeAttribute('data-out-of-boundaries');
}
var basePlacement = getBasePlacement(data.placement);
var isVerticalPlacement = includes(['top', 'bottom'], basePlacement);
var isSecondaryPlacement = includes(['bottom', 'right'], basePlacement); // Apply `distance` prop
tooltip.style.top = '0';
tooltip.style.left = '0';
tooltip.style[isVerticalPlacement ? 'top' : 'left'] = (isSecondaryPlacement ? 1 : -1) * distancePx + 'px'; // Careful not to cause an infinite loop here
// Fixes https://github.com/FezVrasta/popper.js/issues/784
if (prevPlacement && prevPlacement !== data.placement) {
instance.popperInstance.update();
}
}
var config = _extends({
eventsEnabled: false,
placement: instance.props.placement
}, popperOptions, {
modifiers: _extends({}, popperOptions && popperOptions.modifiers, {
// We can't use `padding` on the popper el because of these bugs when
// flipping from a vertical to horizontal placement or vice-versa,
// there is severe flickering.
// https://github.com/FezVrasta/popper.js/issues/720
// This workaround increases bundle size by 250B minzip unfortunately,
// due to need to custom compute the distance (since Popper rect does
// not get affected by the inner tooltip's distance offset)
tippyDistance: {
enabled: true,
order: 0,
fn: function fn(data) {
// `html` fontSize may change while `popperInstance` is alive
// e.g. on resize in media queries
distancePx = getUnitsInPx(doc, instance.props.distance);
var basePlacement = getBasePlacement(data.placement);
var computedPreventOverflowPadding = getComputedPadding(basePlacement, preventOverflowModifier && preventOverflowModifier.padding, distancePx);
var computedFlipPadding = getComputedPadding(basePlacement, flipModifier && flipModifier.padding, distancePx);
var instanceModifiers = instance.popperInstance.modifiers;
setModifierValue(instanceModifiers, 'preventOverflow', 'padding', computedPreventOverflowPadding);
setModifierValue(instanceModifiers, 'flip', 'padding', computedFlipPadding);
return data;
}
},
preventOverflow: _extends({
boundariesElement: instance.props.boundary
}, preventOverflowModifier),
flip: _extends({
enabled: instance.props.flip,
behavior: instance.props.flipBehavior
}, flipModifier),
arrow: _extends({
element: arrow,
enabled: !!arrow
}, getModifier(popperOptions, 'arrow')),
offset: _extends({
offset: instance.props.offset
}, getModifier(popperOptions, 'offset'))
}),
onCreate: function onCreate(data) {
applyMutations(data);
preserveInvocation(popperOptions && popperOptions.onCreate, config.onCreate, [data]);
runMountCallback();
},
onUpdate: function onUpdate(data) {
applyMutations(data);
preserveInvocation(popperOptions && popperOptions.onUpdate, config.onUpdate, [data]);
runMountCallback();
}
});
instance.popperInstance = new Popper(reference, popper, config);
}
function runMountCallback() {
// Only invoke currentMountCallback after 2 updates
// This fixes some bugs in Popper.js (TODO: aim for only 1 update)
if (popperUpdates === 0) {
popperUpdates++; // 1
instance.popperInstance.update();
} else if (currentMountCallback && popperUpdates === 1) {
popperUpdates++; // 2
reflow(popper);
currentMountCallback();
}
}
function mount() {
// The mounting callback (`currentMountCallback`) is only run due to a
// popperInstance update/create
popperUpdates = 0;
var appendTo = instance.props.appendTo;
var parentNode; // By default, we'll append the popper to the triggerTargets's parentNode so
// it's directly after the reference element so the elements inside the
// tippy can be tabbed to
// If there are clipping issues, the user can specify a different appendTo
// and ensure focus management is handled correctly manually
var node = getCurrentTarget();
if (instance.props.interactive && appendTo === defaultProps.appendTo || appendTo === 'parent') {
parentNode = node.parentNode;
} else {
parentNode = invokeWithArgsOrReturn(appendTo, [node]);
} // The popper element needs to exist on the DOM before its position can be
// updated as Popper.js needs to read its dimensions
if (!parentNode.contains(popper)) {
parentNode.appendChild(popper);
}
{
// Accessibility check
warnWhen(instance.props.interactive && appendTo === defaultProps.appendTo && node.nextElementSibling !== popper, ['Interactive tippy element may not be accessible via keyboard navigation', 'because it is not directly after the reference element in the DOM source', 'order.', '\n\n', 'Using a wrapper <div> or <span> tag around the reference element solves', 'this by creating a new parentNode context.', '\n\n', 'Specifying `appendTo: document.body` silences this warning, but it', 'assumes you are using a focus management solution to handle keyboard', 'navigation.', '\n\n', 'See: https://atomiks.github.io/tippyjs/accessibility/#interactivity'].join(' '));
}
setModifierValue(instance.popperInstance.modifiers, 'flip', 'enabled', instance.props.flip);
instance.popperInstance.enableEventListeners(); // Mounting callback invoked in `onUpdate`
instance.popperInstance.update();
}
function scheduleShow(event) {
instance.clearDelayTimeouts();
if (!instance.popperInstance) {
createPopperInstance();
}
if (event) {
invokeHook('onTrigger', [instance, event]);
}
addDocumentMouseDownListener();
var delay = getDelay(true);
if (delay) {
showTimeout = setTimeout(function () {
instance.show();
}, delay);
} else {
instance.show();
}
}
function scheduleHide(event) {
instance.clearDelayTimeouts();
invokeHook('onUntrigger', [instance, event]);
if (!instance.state.isVisible) {
removeDocumentMouseDownListener();
return;
} // For interactive tippies, scheduleHide is added to a document.body handler
// from onMouseLeave so must intercept scheduled hides from mousemove/leave
// events when trigger contains mouseenter and click, and the tip is
// currently shown as a result of a click.
if (includes(instance.props.trigger, 'mouseenter') && includes(instance.props.trigger, 'click') && includes(['mouseleave', 'mousemove'], event.type) && isVisibleFromClick) {
return;
}
var delay = getDelay(false);
if (delay) {
hideTimeout = setTimeout(function () {
if (instance.state.isVisible) {
instance.hide();
}
}, delay);
} else {
// Fixes a `transitionend` problem when it fires 1 frame too
// late sometimes, we don't want hide() to be called.
scheduleHideAnimationFrame = requestAnimationFrame(function () {
instance.hide();
});
}
}
/* ======================= 🔑 Public methods 🔑 ======================= */
function enable() {
instance.state.isEnabled = true;
}
function disable() {
// Disabling the instance should also hide it
// https://github.com/atomiks/tippy.js-react/issues/106
instance.hide();
instance.state.isEnabled = false;
}
function clearDelayTimeouts() {
clearTimeout(showTimeout);
clearTimeout(hideTimeout);
cancelAnimationFrame(scheduleHideAnimationFrame);
}
function setProps(partialProps) {
{
warnWhen(instance.state.isDestroyed, createMemoryLeakWarning('setProps'));
}
if (instance.state.isDestroyed) {
return;
}
{
validateProps(partialProps, plugins);
warnWhen(partialProps.plugins ? partialProps.plugins.length !== plugins.length || plugins.some(function (p, i) {
if (partialProps.plugins && partialProps.plugins[i]) {
return p !== partialProps.plugins[i];
} else {
return true;
}
}) : false, "Cannot update plugins");
}
invokeHook('onBeforeUpdate', [instance, partialProps]);
removeListenersFromTriggerTarget();
var prevProps = instance.props;
var nextProps = evaluateProps(reference, _extends({}, instance.props, {}, partialProps, {
ignoreAttributes: true
}));
nextProps.ignoreAttributes = useIfDefined(partialProps.ignoreAttributes, prevProps.ignoreAttributes);
instance.props = nextProps;
addListenersToTriggerTarget();
if (prevProps.interactiveDebounce !== nextProps.interactiveDebounce) {
cleanupInteractiveMouseListeners();
debouncedOnMouseMove = debounce(onMouseMove, nextProps.interactiveDebounce);
}
updatePopperElement(popper, prevProps, nextProps);
instance.popperChildren = getChildren(popper); // Ensure stale aria-expanded attributes are removed
if (prevProps.triggerTarget && !nextProps.triggerTarget) {
normalizeToArray(prevProps.triggerTarget).forEach(function (node) {
node.removeAttribute('aria-expanded');
});
} else if (nextProps.triggerTarget) {
reference.removeAttribute('aria-expanded');
}
handleAriaExpandedAttribute();
if (instance.popperInstance) {
if (POPPER_INSTANCE_DEPENDENCIES.some(function (prop) {
return hasOwnProperty(partialProps, prop) && partialProps[prop] !== prevProps[prop];
})) {
var currentReference = instance.popperInstance.reference;
instance.popperInstance.destroy();
createPopperInstance();
instance.popperInstance.reference = currentReference;
if (instance.state.isVisible) {
instance.popperInstance.enableEventListeners();
}
} else {
instance.popperInstance.update();
}
}
invokeHook('onAfterUpdate', [instance, partialProps]);
}
function setContent(content) {
instance.setProps({
content: content
});
}
function show(duration) {
if (duration === void 0) {
duration = getValueAtIndexOrReturn(instance.props.duration, 0, defaultProps.duration);
}
{
warnWhen(instance.state.isDestroyed, createMemoryLeakWarning('show'));
} // Early bail-out
var isAlreadyVisible = instance.state.isVisible;
var isDestroyed = instance.state.isDestroyed;
var isDisabled = !instance.state.isEnabled;
var isTouchAndTouchDisabled = currentInput.isTouch && !instance.props.touch;
if (isAlreadyVisible || isDestroyed || isDisabled || isTouchAndTouchDisabled) {
return;
} // Normalize `disabled` behavior across browsers.
// Firefox allows events on disabled elements, but Chrome doesn't.
// Using a wrapper element (i.e. <span>) is recommended.
if (getCurrentTarget().hasAttribute('disabled')) {
return;
}
if (!instance.popperInstance) {
createPopperInstance();
}
invokeHook('onShow', [instance], false);
if (instance.props.onShow(instance) === false) {
return;
}
addDocumentMouseDownListener();
popper.style.visibility = 'visible';
instance.state.isVisible = true; // Prevent a transition of the popper from its previous position and of the
// elements at a different placement
// Check if the tippy was fully unmounted before `show()` was called, to
// allow for smooth transition for `createSingleton()`
if (!instance.state.isMounted) {
setTransitionDuration(transitionableElements.concat(popper), 0);
}
currentMountCallback = function currentMountCallback() {
if (!instance.state.isVisible) {
return;
}
setTransitionDuration([popper], instance.props.updateDuration);
setTransitionDuration(transitionableElements, duration);
setVisibilityState(transitionableElements, 'visible');
handleAriaDescribedByAttribute();
handleAriaExpandedAttribute();
pushIfUnique(mountedInstances, instance);
updateIOSClass(true);
instance.state.isMounted = true;
invokeHook('onMount', [instance]);
onTransitionedIn(duration, function () {
instance.state.isShown = true;
invokeHook('onShown', [instance]);
});
};
mount();
}
function hide(duration) {
if (duration === void 0) {
duration = getValueAtIndexOrReturn(instance.props.duration, 1, defaultProps.duration);
}
{
warnWhen(instance.state.isDestroyed, createMemoryLeakWarning('hide'));
} // Early bail-out
var isAlreadyHidden = !instance.state.isVisible && !isBeingDestroyed;
var isDestroyed = instance.state.isDestroyed;
var isDisabled = !instance.state.isEnabled && !isBeingDestroyed;
if (isAlreadyHidden || isDestroyed || isDisabled) {
return;
}
invokeHook('onHide', [instance], false);
if (instance.props.onHide(instance) === false && !isBeingDestroyed) {
return;
}
removeDocumentMouseDownListener();
popper.style.visibility = 'hidden';
instance.state.isVisible = false;
instance.state.isShown = false;
setTransitionDuration(transitionableElements, duration);
setVisibilityState(transitionableElements, 'hidden');
handleAriaDescribedByAttribute();
handleAriaExpandedAttribute();
onTransitionedOut(duration, function () {
instance.popperInstance.disableEventListeners();
instance.popperInstance.options.placement = instance.props.placement;
popper.parentNode.removeChild(popper);
mountedInstances = mountedInstances.filter(function (i) {
return i !== instance;
});
if (mountedInstances.length === 0) {
updateIOSClass(false);
}
instance.state.isMounted = false;
invokeHook('onHidden', [instance]);
});
}
function destroy() {
{
warnWhen(instance.state.isDestroyed, createMemoryLeakWarning('destroy'));
}
if (instance.state.isDestroyed) {
return;
}
isBeingDestroyed = true;
instance.clearDelayTimeouts();
instance.hide(0);
removeListenersFromTriggerTarget();
delete reference._tippy;
if (instance.popperInstance) {
instance.popperInstance.destroy();
}
isBeingDestroyed = false;
instance.state.isDestroyed = true;
invokeHook('onDestroy', [instance]);
}
}
function tippy(targets, optionalProps,
/** @deprecated use Props.plugins */
plugins) {
if (optionalProps === void 0) {
optionalProps = {};
}
if (plugins === void 0) {
plugins = [];
}
plugins = defaultProps.plugins.concat(optionalProps.plugins || plugins);
{
validateTargets(targets);
validateProps(optionalProps, plugins);
}
bindGlobalEventListeners();
var passedProps = _extends({}, optionalProps, {
plugins: plugins
});
var elements = getArrayOfElements(targets);
{
var isSingleContentElement = isElement(passedProps.content);
var isMoreThanOneReferenceElement = elements.length > 1;
warnWhen(isSingleContentElement && isMoreThanOneReferenceElement, ['tippy() was passed an Element as the `content` prop, but more than one tippy', 'instance was created by this invocation. This means the content element will', 'only be appended to the last tippy instance.', '\n\n', 'Instead, pass the .innerHTML of the element, or use a function that returns a', 'cloned version of the element instead.', '\n\n', '1) content: element.innerHTML\n', '2) content: () => element.cloneNode(true)'].join(' '));
}
var instances = elements.reduce(function (acc, reference) {
var instance = reference && createTippy(reference, passedProps);
if (instance) {
acc.push(instance);
}
return acc;
}, []);
return isElement(targets) ? instances[0] : instances;
}
tippy.version = version;
tippy.defaultProps = defaultProps;
tippy.setDefaultProps = setDefaultProps;
tippy.currentInput = currentInput;
/**
* Hides all visible poppers on the document
*/
var hideAll = function hideAll(_temp) {
var _ref = _temp === void 0 ? {} : _temp,
excludedReferenceOrInstance = _ref.exclude,
duration = _ref.duration;
mountedInstances.forEach(function (instance) {
var isExcluded = false;
if (excludedReferenceOrInstance) {
isExcluded = isReferenceElement(excludedReferenceOrInstance) ? instance.reference === excludedReferenceOrInstance : instance.popper === excludedReferenceOrInstance.popper;
}
if (!isExcluded) {
instance.hide(duration);
}
});
};
/**
* Re-uses a single tippy element for many different tippy instances.
* Replaces v4's `tippy.group()`.
*/
var createSingleton = function createSingleton(tippyInstances, optionalProps,
/** @deprecated use Props.plugins */
plugins) {
if (optionalProps === void 0) {
optionalProps = {};
}
if (plugins === void 0) {
plugins = [];
}
{
errorWhen(!Array.isArray(tippyInstances), ['The first argument passed to createSingleton() must be an array of tippy', 'instances. The passed value was', String(tippyInstances)].join(' '));
}
plugins = optionalProps.plugins || plugins;
tippyInstances.forEach(function (instance) {
instance.disable();
});
var userAria = _extends({}, defaultProps, {}, optionalProps).aria;
var currentAria;
var currentTarget;
var shouldSkipUpdate = false;
var references = tippyInstances.map(function (instance) {
return instance.reference;
});
var singleton = {
fn: function fn(instance) {
function handleAriaDescribedByAttribute(isShow) {
if (!currentAria) {
return;
}
var attr = "aria-" + currentAria;
if (isShow && !instance.props.interactive) {
currentTarget.setAttribute(attr, instance.popperChildren.tooltip.id);
} else {
currentTarget.removeAttribute(attr);
}
}
return {
onAfterUpdate: function onAfterUpdate(_, _ref) {
var aria = _ref.aria;
// Ensure `aria` for the singleton instance stays `null`, while
// changing the `userAria` value
if (aria !== undefined && aria !== userAria) {
if (!shouldSkipUpdate) {
userAria = aria;
} else {
shouldSkipUpdate = true;
instance.setProps({
aria: null
});
shouldSkipUpdate = false;
}
}
},
onDestroy: function onDestroy() {
tippyInstances.forEach(function (instance) {
instance.enable();
});
},
onMount: function onMount() {
handleAriaDescribedByAttribute(true);
},
onUntrigger: function onUntrigger() {
handleAriaDescribedByAttribute(false);
},
onTrigger: function onTrigger(_, event) {
var target = event.currentTarget;
var index = references.indexOf(target); // bail-out
if (target === currentTarget) {
return;
}
currentTarget = target;
currentAria = userAria;
if (instance.state.isVisible) {
handleAriaDescribedByAttribute(true);
}
instance.popperInstance.reference = target;
instance.setContent(tippyInstances[index].props.content);
}
};
}
};
return tippy(div(), _extends({}, optionalProps, {
plugins: [singleton].concat(plugins),
aria: null,
triggerTarget: references
}));
};
var BUBBLING_EVENTS_MAP = {
mouseover: 'mouseenter',
focusin: 'focus',
click: 'click'
};
/**
* Creates a delegate instance that controls the creation of tippy instances
* for child elements (`target` CSS selector).
*/
function delegate(targets, props,
/** @deprecated use Props.plugins */
plugins) {
if (plugins === void 0) {
plugins = [];
}
{
errorWhen(!(props && props.target), ['You must specity a `target` prop indicating a CSS selector string matching', 'the target elements that should receive a tippy.'].join(' '));
}
plugins = props.plugins || plugins;
var listeners = [];
var childTippyInstances = [];
var target = props.target;
var nativeProps = removeProperties(props, ['target']);
var parentProps = _extends({}, nativeProps, {
plugins: plugins,
trigger: 'manual'
});
var childProps = _extends({}, nativeProps, {
plugins: plugins,
showOnCreate: true
});
var returnValue = tippy(targets, parentProps);
var normalizedReturnValue = normalizeToArray(returnValue);
function onTrigger(event) {
if (!event.target) {
return;
}
var targetNode = event.target.closest(target);
if (!targetNode) {
return;
} // Get relevant trigger with fallbacks:
// 1. Check `data-tippy-trigger` attribute on target node
// 2. Fallback to `trigger` passed to `delegate()`
// 3. Fallback to `defaultProps.trigger`
var trigger = targetNode.getAttribute('data-tippy-trigger') || props.trigger || defaultProps.trigger; // Only create the instance if the bubbling event matches the trigger type
if (!includes(trigger, BUBBLING_EVENTS_MAP[event.type])) {
return;
}
var instance = tippy(targetNode, childProps);
if (instance) {
childTippyInstances = childTippyInstances.concat(instance);
}
}
function on(node, eventType, handler, options) {
if (options === void 0) {
options = false;
}
node.addEventListener(eventType, handler, options);
listeners.push({
node: node,
eventType: eventType,
handler: handler,
options: options
});
}
function addEventListeners(instance) {
var reference = instance.reference;
on(reference, 'mouseover', onTrigger);
on(reference, 'focusin', onTrigger);
on(reference, 'click', onTrigger);
}
function removeEventListeners() {
listeners.forEach(function (_ref) {
var node = _ref.node,
eventType = _ref.eventType,
handler = _ref.handler,
options = _ref.options;
node.removeEventListener(eventType, handler, options);
});
listeners = [];
}
function applyMutations(instance) {
var originalDestroy = instance.destroy;
instance.destroy = function (shouldDestroyChildInstances) {
if (shouldDestroyChildInstances === void 0) {
shouldDestroyChildInstances = true;
}
if (shouldDestroyChildInstances) {
childTippyInstances.forEach(function (instance) {
instance.destroy();
});
}
childTippyInstances = [];
removeEventListeners();
originalDestroy();
};
addEventListeners(instance);
}
normalizedReturnValue.forEach(applyMutations);
return returnValue;
}
var animateFill = {
name: 'animateFill',
defaultValue: false,
fn: function fn(instance) {
var _instance$popperChild = instance.popperChildren,
tooltip = _instance$popperChild.tooltip,
content = _instance$popperChild.content;
var backdrop = instance.props.animateFill ? createBackdropElement() : null;
function addBackdropToPopperChildren() {
instance.popperChildren.backdrop = backdrop;
}
return {
onCreate: function onCreate() {
if (backdrop) {
addBackdropToPopperChildren();
tooltip.insertBefore(backdrop, tooltip.firstElementChild);
tooltip.setAttribute('data-animatefill', '');
tooltip.style.overflow = 'hidden';
instance.setProps({
animation: 'shift-away',
arrow: false
});
}
},
onMount: function onMount() {
if (backdrop) {
var transitionDuration = tooltip.style.transitionDuration;
var duration = Number(transitionDuration.replace('ms', '')); // The content should fade in after the backdrop has mostly filled the
// tooltip element. `clip-path` is the other alternative but is not
// well-supported and is buggy on some devices.
content.style.transitionDelay = Math.round(duration / 10) + "ms";
backdrop.style.transitionDuration = transitionDuration;
setVisibilityState([backdrop], 'visible'); // Warn if the stylesheets are not loaded
{
warnWhen(getComputedStyle(backdrop).position !== 'absolute', "The `tippy.js/dist/backdrop.css` stylesheet has not been\n imported!\n \n The `animateFill` plugin requires this stylesheet to work.");
warnWhen(getComputedStyle(tooltip).transform === 'none', "The `tippy.js/animations/shift-away.css` stylesheet has not\n been imported!\n \n The `animateFill` plugin requires this stylesheet to work.");
}
}
},
onShow: function onShow() {
if (backdrop) {
backdrop.style.transitionDuration = '0ms';
}
},
onHide: function onHide() {
if (backdrop) {
setVisibilityState([backdrop], 'hidden');
}
},
onAfterUpdate: function onAfterUpdate() {
// With this type of prop, it's highly unlikely it will be changed
// dynamically. We'll leave out the diff/update logic it to save bytes.
// `popperChildren` is assigned a new object onAfterUpdate
addBackdropToPopperChildren();
}
};
}
};
function createBackdropElement() {
var backdrop = div();
backdrop.className = BACKDROP_CLASS;
setVisibilityState([backdrop], 'hidden');
return backdrop;
}
var followCursor = {
name: 'followCursor',
defaultValue: false,
fn: function fn(instance) {
var reference = instance.reference,
popper = instance.popper;
var originalReference = null; // Support iframe contexts
// Static check that assumes any of the `triggerTarget` or `reference`
// nodes will never change documents, even when they are updated
var doc = getOwnerDocument(instance.props.triggerTarget || reference); // Internal state
var lastMouseMoveEvent;
var mouseCoords = null;
var isInternallySettingControlledProp = false; // These are controlled by this plugin, so we need to store the user's
// original prop value
var userProps = instance.props;
function setUserProps(props) {
var keys = Object.keys(props);
keys.forEach(function (prop) {
userProps[prop] = useIfDefined(props[prop], userProps[prop]);
});
}
function getIsManual() {
return instance.props.trigger.trim() === 'manual';
}
function getIsEnabled() {
// #597
var isValidMouseEvent = getIsManual() ? true : // Check if a keyboard "click"
mouseCoords !== null && !(mouseCoords.clientX === 0 && mouseCoords.clientY === 0);
return instance.props.followCursor && isValidMouseEvent;
}
function getIsInitialBehavior() {
return currentInput.isTouch || instance.props.followCursor === 'initial' && instance.state.isVisible;
}
function resetReference() {
if (instance.popperInstance && originalReference) {
instance.popperInstance.reference = originalReference;
}
}
function handlePlacement() {
// Due to `getVirtualOffsets()`, we need to reverse the placement if it's
// shifted (start -> end, and vice-versa)
// Early bail-out
if (!getIsEnabled() && instance.props.placement === userProps.placement) {
return;
}
var placement = userProps.placement;
var shift = placement.split('-')[1];
isInternallySettingControlledProp = true;
instance.setProps({
placement: getIsEnabled() && shift ? placement.replace(shift, shift === 'start' ? 'end' : 'start') : placement
});
isInternallySettingControlledProp = false;
}
function handlePopperListeners() {
if (!instance.popperInstance) {
return;
} // Popper's scroll listeners make sense for `true` only. TODO: work out
// how to only listen horizontal scroll for "horizontal" and vertical
// scroll for "vertical"
if (getIsEnabled() && getIsInitialBehavior()) {
instance.popperInstance.disableEventListeners();
}
}
function handleMouseMoveListener() {
if (getIsEnabled()) {
addListener();
} else {
resetReference();
}
}
function triggerLastMouseMove() {
if (getIsEnabled()) {
onMouseMove(lastMouseMoveEvent);
}
}
function addListener() {
doc.addEventListener('mousemove', onMouseMove);
}
function removeListener() {
doc.removeEventListener('mousemove', onMouseMove);
}
function onMouseMove(event) {
var _lastMouseMoveEvent = lastMouseMoveEvent = event,
clientX = _lastMouseMoveEvent.clientX,
clientY = _lastMouseMoveEvent.clientY;
if (!instance.popperInstance || !instance.state.currentPlacement) {
return;
} // If the instance is interactive, avoid updating the position unless it's
// over the reference element
var isCursorOverReference = closestCallback(event.target, function (el) {
return el === reference;
});
var followCursor = instance.props.followCursor;
var isHorizontal = followCursor === 'horizontal';
var isVertical = followCursor === 'vertical';
var isVerticalPlacement = includes(['top', 'bottom'], getBasePlacement(instance.state.currentPlacement)); // The virtual reference needs some size to prevent itself from overflowing
var _getVirtualOffsets = getVirtualOffsets(popper, isVerticalPlacement),
size = _getVirtualOffsets.size,
x = _getVirtualOffsets.x,
y = _getVirtualOffsets.y;
if (isCursorOverReference || !instance.props.interactive) {
// Preserve custom position ReferenceObjects, which may not be the
// original targets reference passed as an argument
if (originalReference === null) {
originalReference = instance.popperInstance.reference;
}
instance.popperInstance.reference = {
referenceNode: reference,
// These `client` values don't get used by Popper.js if they are 0
clientWidth: 0,
clientHeight: 0,
getBoundingClientRect: function getBoundingClientRect() {
var rect = reference.getBoundingClientRect();
return {
width: isVerticalPlacement ? size : 0,
height: isVerticalPlacement ? 0 : size,
top: (isHorizontal ? rect.top : clientY) - y,
bottom: (isHorizontal ? rect.bottom : clientY) + y,
left: (isVertical ? rect.left : clientX) - x,
right: (isVertical ? rect.right : clientX) + x
};
}
};
instance.popperInstance.update();
}
if (getIsInitialBehavior()) {
removeListener();
}
}
return {
onAfterUpdate: function onAfterUpdate(_, partialProps) {
if (!isInternallySettingControlledProp) {
setUserProps(partialProps);
if (partialProps.placement) {
handlePlacement();
}
} // A new placement causes the popperInstance to be recreated
if (partialProps.placement) {
handlePopperListeners();
} // Wait for `.update()` to set `instance.state.currentPlacement` to
// the new placement
requestAnimationFrame(triggerLastMouseMove);
},
onMount: function onMount() {
triggerLastMouseMove();
handlePopperListeners();
},
onShow: function onShow() {
if (getIsManual()) {
// Since there's no trigger event to use, we have to use these as
// baseline coords
mouseCoords = {
clientX: 0,
clientY: 0
}; // Ensure `lastMouseMoveEvent` doesn't access any other properties
// of a MouseEvent here
lastMouseMoveEvent = mouseCoords;
handlePlacement();
handleMouseMoveListener();
}
},
onTrigger: function onTrigger(_, event) {
// Tapping on touch devices can trigger `mouseenter` then `focus`
if (mouseCoords) {
return;
}
if (isMouseEvent(event)) {
mouseCoords = {
clientX: event.clientX,
clientY: event.clientY
};
lastMouseMoveEvent = event;
}
handlePlacement();
handleMouseMoveListener();
},
onUntrigger: function onUntrigger() {
// If untriggered before showing (`onHidden` will never be invoked)
if (!instance.state.isVisible) {
removeListener();
mouseCoords = null;
}
},
onHidden: function onHidden() {
removeListener();
resetReference();
mouseCoords = null;
}
};
}
};
function getVirtualOffsets(popper, isVerticalPlacement) {
var size = isVerticalPlacement ? popper.offsetWidth : popper.offsetHeight;
return {
size: size,
x: isVerticalPlacement ? size : 0,
y: isVerticalPlacement ? 0 : size
};
}
// position. This will require the `followCursor` plugin's fixes for overflow
// due to using event.clientX/Y values. (normalizedPlacement, getVirtualOffsets)
var inlinePositioning = {
name: 'inlinePositioning',
defaultValue: false,
fn: function fn(instance) {
var reference = instance.reference;
function getIsEnabled() {
return !!instance.props.inlinePositioning;
}
return {
onHidden: function onHidden() {
if (getIsEnabled()) {
instance.popperInstance.reference = reference;
}
},
onShow: function onShow() {
if (!getIsEnabled()) {
return;
}
instance.popperInstance.reference = {
referenceNode: reference,
// These `client` values don't get used by Popper.js if they are 0
clientWidth: 0,
clientHeight: 0,
getBoundingClientRect: function getBoundingClientRect() {
return getInlineBoundingClientRect(instance.state.currentPlacement && getBasePlacement(instance.state.currentPlacement), reference.getBoundingClientRect(), arrayFrom(reference.getClientRects()));
}
};
}
};
}
};
function getInlineBoundingClientRect(currentBasePlacement, boundingRect, clientRects) {
// Not an inline element, or placement is not yet known
if (clientRects.length < 2 || currentBasePlacement === null) {
return boundingRect;
}
switch (currentBasePlacement) {
case 'top':
case 'bottom':
{
var firstRect = clientRects[0];
var lastRect = clientRects[clientRects.length - 1];
var isTop = currentBasePlacement === 'top';
var top = firstRect.top;
var bottom = lastRect.bottom;
var left = isTop ? firstRect.left : lastRect.left;
var right = isTop ? firstRect.right : lastRect.right;
var width = right - left;
var height = bottom - top;
return {
top: top,
bottom: bottom,
left: left,
right: right,
width: width,
height: height
};
}
case 'left':
case 'right':
{
var minLeft = Math.min.apply(Math, clientRects.map(function (rects) {
return rects.left;
}));
var maxRight = Math.max.apply(Math, clientRects.map(function (rects) {
return rects.right;
}));
var measureRects = clientRects.filter(function (rect) {
return currentBasePlacement === 'left' ? rect.left === minLeft : rect.right === maxRight;
});
var _top = measureRects[0].top;
var _bottom = measureRects[measureRects.length - 1].bottom;
var _left = minLeft;
var _right = maxRight;
var _width = _right - _left;
var _height = _bottom - _top;
return {
top: _top,
bottom: _bottom,
left: _left,
right: _right,
width: _width,
height: _height
};
}
default:
{
return boundingRect;
}
}
}
var sticky = {
name: 'sticky',
defaultValue: false,
fn: function fn(instance) {
var reference = instance.reference,
popper = instance.popper;
function getReference() {
return instance.popperInstance ? instance.popperInstance.reference : reference;
}
function shouldCheck(value) {
return instance.props.sticky === true || instance.props.sticky === value;
}
var prevRefRect = null;
var prevPopRect = null;
function updatePosition() {
var currentRefRect = shouldCheck('reference') ? getReference().getBoundingClientRect() : null;
var currentPopRect = shouldCheck('popper') ? popper.getBoundingClientRect() : null;
if (currentRefRect && areRectsDifferent(prevRefRect, currentRefRect) || currentPopRect && areRectsDifferent(prevPopRect, currentPopRect)) {
instance.popperInstance.update();
}
prevRefRect = currentRefRect;
prevPopRect = currentPopRect;
if (instance.state.isMounted) {
requestAnimationFrame(updatePosition);
}
}
return {
onMount: function onMount() {
if (instance.props.sticky) {
updatePosition();
}
}
};
}
};
function areRectsDifferent(rectA, rectB) {
if (rectA && rectB) {
return rectA.top !== rectB.top || rectA.right !== rectB.right || rectA.bottom !== rectB.bottom || rectA.left !== rectB.left;
}
return true;
}
if (isBrowser) {
injectCSS(css);
}
tippy.setDefaultProps({
plugins: [animateFill, followCursor, inlinePositioning, sticky]
});
tippy.createSingleton = createSingleton;
tippy.delegate = delegate;
tippy.hideAll = hideAll;
tippy.roundArrow = ROUND_ARROW;
return tippy;
}(Popper));
//# sourceMappingURL=tippy-bundle.iife.js.map